{"id":54761,"date":"2026-05-25T08:51:18","date_gmt":"2026-05-25T08:51:18","guid":{"rendered":"https:\/\/xtmim.com\/?page_id=54761"},"modified":"2026-05-25T15:07:31","modified_gmt":"2026-05-25T15:07:31","slug":"%eb%82%b4%ec%8b%9c%ea%b2%bd-%eb%b6%80%ed%92%88","status":"publish","type":"page","link":"https:\/\/xtmim.com\/ko\/mim-parts\/medical-parts\/endoscope-parts\/","title":{"rendered":"\ub0b4\uc2dc\uacbd MIM \ubd80\ud488"},"content":{"rendered":"\t\t<div data-elementor-type=\"wp-page\" data-elementor-id=\"54761\" class=\"elementor elementor-54761\" data-elementor-post-type=\"page\">\n\t\t\t\t<div class=\"elementor-element elementor-element-3d0924e e-con-full e-flex cmsmasters-bg-hide-none cmsmasters-bg-hide-none cmsmasters-block-default e-con e-parent\" data-id=\"3d0924e\" data-element_type=\"container\" data-e-type=\"container\" data-settings=\"{&quot;background_background&quot;:&quot;classic&quot;}\">\n\t\t<div class=\"elementor-element elementor-element-2115894 e-flex e-con-boxed cmsmasters-block-default e-con e-child\" data-id=\"2115894\" data-element_type=\"container\" data-e-type=\"container\">\n\t\t\t\t\t<div class=\"e-con-inner\">\n\t\t\t\t<div class=\"elementor-element elementor-element-956c26a cmsmasters-block-default cmsmasters-sticky-default elementor-widget elementor-widget-heading\" data-id=\"956c26a\" data-element_type=\"widget\" data-e-type=\"widget\" data-widget_type=\"heading.default\">\n\t\t\t\t\t<h1 class=\"elementor-heading-title elementor-size-default\">Endoscope MIM Parts: Components &amp; DFM Review<\/h1>\t\t\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t<div class=\"elementor-element elementor-element-36befc9 e-con-full e-flex cmsmasters-block-default e-con e-parent\" data-id=\"36befc9\" data-element_type=\"container\" data-e-type=\"container\">\n\t\t<div class=\"elementor-element elementor-element-bfc6954 e-flex e-con-boxed cmsmasters-block-default e-con e-child\" data-id=\"bfc6954\" data-element_type=\"container\" data-e-type=\"container\">\n\t\t\t\t\t<div class=\"e-con-inner\">\n\t\t\t\t<div class=\"elementor-element elementor-element-0010f79 cmsmasters-block-default cmsmasters-sticky-default elementor-widget elementor-widget-html\" data-id=\"0010f79\" data-element_type=\"widget\" data-e-type=\"widget\" data-widget_type=\"html.default\">\n\t\t\t\t\t<style>\r\n.xtmim-endoscope-parts {\r\n  --xt-primary: #1f4f7a;\r\n  --xt-primary-dark: #163a5a;\r\n  --xt-primary-soft: #eaf2f8;\r\n  --xt-bg: #ffffff;\r\n  --xt-bg-soft: #f6f9fc;\r\n  --xt-border: #d9e2ec;\r\n  --xt-text: #1f2933;\r\n  --xt-muted: #5d6975;\r\n  --xt-accent: #2f6f9f;\r\n  --xt-warning: #fff7e6;\r\n  --xt-warning-border: #f2d28a;\r\n  --xt-success: #edf7f1;\r\n  --xt-success-border: #b7dfc8;\r\n  --xt-radius-sm: 10px;\r\n  --xt-radius-md: 14px;\r\n  --xt-radius-lg: 18px;\r\n  --xt-shadow-sm: 0 10px 26px rgba(22, 58, 90, 0.06);\r\n  --xt-shadow-md: 0 16px 36px rgba(22, 58, 90, 0.08);\r\n  --xt-container: 1600px;\r\n  --xt-font-base: 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var(--xt-primary-dark);\r\n  background: #ffffff;\r\n}\r\n\r\n.xtmim-endoscope-parts .xtmim-btn-secondary:hover {\r\n  color: #ffffff;\r\n  background: var(--xt-primary-dark);\r\n}\r\n\r\n.xtmim-endoscope-parts .xtmim-resource-card {\r\n  border: 1px solid var(--xt-border);\r\n  border-radius: var(--xt-radius-md);\r\n  padding: 16px;\r\n  background: var(--xt-bg-soft);\r\n}\r\n\r\n.xtmim-endoscope-parts .xtmim-resource-card strong {\r\n  display: block;\r\n  color: var(--xt-primary-dark);\r\n  margin-bottom: 8px;\r\n}\r\n\r\n.xtmim-endoscope-parts .xtmim-faq details {\r\n  border: 1px solid var(--xt-border);\r\n  border-radius: var(--xt-radius-md);\r\n  padding: 0;\r\n  margin: 12px 0;\r\n  background: var(--xt-bg);\r\n  overflow: hidden;\r\n}\r\n\r\n.xtmim-endoscope-parts .xtmim-faq summary {\r\n  cursor: pointer;\r\n  font-weight: 800;\r\n  color: var(--xt-primary-dark);\r\n  padding: 16px 18px;\r\n  list-style-position: inside;\r\n}\r\n\r\n.xtmim-endoscope-parts .xtmim-faq details p {\r\n  margin: 0;\r\n  padding: 0 18px 18px;\r\n}\r\n\r\n.xtmim-endoscope-parts .xtmim-author {\r\n  margin-top: 36px;\r\n  padding: 22px;\r\n  border-radius: var(--xt-radius-lg);\r\n  border: 1px solid var(--xt-border);\r\n  background: var(--xt-bg-soft);\r\n}\r\n\r\n.xtmim-endoscope-parts .xtmim-author strong {\r\n  color: var(--xt-primary-dark);\r\n}\r\n\r\n.xtmim-endoscope-parts .xtmim-standards {\r\n  margin-top: 34px;\r\n}\r\n\r\n@media (max-width: 900px) {\r\n  .xtmim-endoscope-parts {\r\n    padding: 0 16px 42px;\r\n    font-size: 16px;\r\n    line-height: 1.68;\r\n  }\r\n\r\n  .xtmim-endoscope-parts .xtmim-hero-body {\r\n    padding: 22px 18px 24px;\r\n  }\r\n\r\n  .xtmim-endoscope-parts .xtmim-lead {\r\n    font-size: 1.02rem;\r\n  }\r\n\r\n  .xtmim-endoscope-parts h2 {\r\n    margin-top: 38px;\r\n    font-size: 1.65rem;\r\n  }\r\n\r\n  .xtmim-endoscope-parts h3 {\r\n    font-size: 1.28rem;\r\n  }\r\n\r\n  .xtmim-endoscope-parts .xtmim-grid,\r\n  .xtmim-endoscope-parts .xtmim-grid-2,\r\n  .xtmim-endoscope-parts .xtmim-grid-3,\r\n  .xtmim-endoscope-parts .xtmim-grid-4,\r\n  .xtmim-endoscope-parts .xtmim-toc ul {\r\n    grid-template-columns: 1fr;\r\n  }\r\n\r\n  .xtmim-endoscope-parts .xtmim-card,\r\n  .xtmim-endoscope-parts .xtmim-cta,\r\n  .xtmim-endoscope-parts .xtmim-toc {\r\n    padding: 20px;\r\n  }\r\n\r\n  .xtmim-endoscope-parts table {\r\n    min-width: 720px;\r\n  }\r\n}\r\n\r\n@media (max-width: 600px) {\r\n  .xtmim-endoscope-parts {\r\n    padding-left: 16px;\r\n    padding-right: 16px;\r\n  }\r\n\r\n  .xtmim-endoscope-parts h2 {\r\n    font-size: 1.55rem;\r\n  }\r\n\r\n  .xtmim-endoscope-parts h3 {\r\n    font-size: 1.22rem;\r\n  }\r\n\r\n  .xtmim-endoscope-parts .xtmim-hero-body,\r\n  .xtmim-endoscope-parts .xtmim-card,\r\n  .xtmim-endoscope-parts .xtmim-cta,\r\n  .xtmim-endoscope-parts .xtmim-note,\r\n  .xtmim-endoscope-parts .xtmim-warning,\r\n  .xtmim-endoscope-parts .xtmim-success,\r\n  .xtmim-endoscope-parts .xtmim-toc,\r\n  .xtmim-endoscope-parts .xtmim-author {\r\n    padding: 18px;\r\n  }\r\n\r\n  .xtmim-endoscope-parts .xtmim-btn-group {\r\n    display: block;\r\n  }\r\n\r\n  .xtmim-endoscope-parts .xtmim-btn {\r\n    width: 100%;\r\n    margin-top: 10px;\r\n    text-align: center;\r\n  }\r\n\r\n  .xtmim-endoscope-parts th,\r\n  .xtmim-endoscope-parts td {\r\n    padding: 12px;\r\n  }\r\n}\r\n<\/style>\r\n\r\n<article class=\"xtmim-endoscope-parts xtmim-endoscope-showcase\">\r\n\r\n  <section class=\"xtmim-hero\" aria-label=\"Endoscope MIM parts overview\">\r\n    <figure>\r\n      <img fetchpriority=\"high\" class=\"xtmim-hero-img\" src=\"https:\/\/xtmim.com\/wp-content\/uploads\/2026\/05\/01-endoscope-mim-parts-hero.webp\" alt=\"Endoscope MIM parts including small jaws, articulation links, drive blocks, guide-channel components and pivot-feature parts for engineering review\" title=\"Endoscope MIM Parts for Precision Medical Device Mechanisms\" width=\"1920\" height=\"500\" loading=\"eager\" fetchpriority=\"high\" decoding=\"async\">\r\n    <\/figure>\r\n    <div class=\"xtmim-hero-body\">\r\n      <p class=\"xtmim-eyebrow\">Medical MIM Parts<\/p>\r\n      <p class=\"xtmim-lead\">XTMIM supports custom endoscope-related MIM components based on customer drawings, including small jaws, biopsy forceps components, articulation links, compact drive blocks, guide-channel components, locking parts and pivot-feature parts. This page first shows what types of endoscope MIM parts can be reviewed for custom production, including representative structures, material directions, surface finish needs and RFQ inputs. The engineering section then explains why these parts may fit MIM, where the manufacturing risks are, and what should be checked before tooling, trial production or volume planning.<\/p>\r\n    <\/div>\r\n  <\/section>\r\n\r\n  <section id=\"quick-answer\" class=\"xtmim-section\">\r\n    <div class=\"xtmim-quick-answer\">\r\n      <p><strong>Quick answer:<\/strong> Endoscope MIM parts are small precision metal components used inside endoscopic or minimally invasive device mechanisms. They are usually reviewed for MIM when the part combines compact size, complex three-dimensional geometry, thin sections, small holes, slots, guide features, mating surfaces or functional edges. This page focuses on component-level MIM manufacturability and RFQ review, not endoscopy market trends, complete endoscope systems or medical device certification.<\/p>\r\n    <\/div>\r\n\r\n    <div class=\"xtmim-grid xtmim-grid-4\" aria-label=\"Endoscope MIM parts summary\">\r\n      <div class=\"xtmim-summary-item\">\r\n        <strong>Parts we can review<\/strong>\r\n        <p>Small jaws, biopsy forceps components, articulation links, drive blocks, guide parts and pivot-feature components.<\/p>\r\n      <\/div>\r\n      <div class=\"xtmim-summary-item\">\r\n        <strong>Customization basis<\/strong>\r\n        <p>Custom production starts from 2D drawings, 3D CAD, material notes, CTQ dimensions and application requirements.<\/p>\r\n      <\/div>\r\n      <div class=\"xtmim-summary-item\">\r\n        <strong>Material direction<\/strong>\r\n        <p>Candidate stainless steels may include 17-4 PH, 420, 316L or 440C depending on function and validation needs.<\/p>\r\n      <\/div>\r\n      <div class=\"xtmim-summary-item\">\r\n        <strong>RFQ focus<\/strong>\r\n        <p>Geometry, tolerance, surface finish, edge condition, secondary operations, annual volume and inspection strategy.<\/p>\r\n      <\/div>\r\n    <\/div>\r\n\r\n    <div class=\"xtmim-warning\">\r\n      <p><strong>Manufacturing and regulatory boundary:<\/strong> XTMIM can review component-level MIM manufacturability, material feasibility, DFM risk, secondary operations and inspection planning. Final medical device approval, biological evaluation, cleaning validation, sterilization validation, labeling and regulatory submission remain the responsibility of the device owner or qualified medical device manufacturer.<\/p>\r\n    <\/div>\r\n\r\n    <nav class=\"xtmim-toc\" aria-label=\"Page contents\">\r\n      <strong>Page contents<\/strong>\r\n      <ul>\r\n        <li><a href=\"#parts-we-support\">Endoscope MIM Parts We Can Support<\/a><\/li>\r\n        <li><a href=\"#typical-component-groups\">Typical Endoscope MIM Component Groups<\/a><\/li>\r\n        <li><a href=\"#representative-structures\">Representative Structures and Custom Features<\/a><\/li>\r\n        <li><a href=\"#materials-finishes\">Material and Surface Finish Options<\/a><\/li>\r\n        <li><a href=\"#application-fit\">Application Direction and Custom Project Fit<\/a><\/li>\r\n        <li><a href=\"#showcase-rfq\">Quick RFQ Entry<\/a><\/li>\r\n        <li><a href=\"#why-mim\">Why These Components May Fit MIM<\/a><\/li>\r\n        <li><a href=\"#dfm-review\">DFM Risks Before Tooling<\/a><\/li>\r\n        <li><a href=\"#tolerance-surface-edge\">Tolerance, CTQ and Inspection Review<\/a><\/li>\r\n        <li><a href=\"#secondary-operations\">Secondary Machining and Finishing<\/a><\/li>\r\n        <li><a href=\"#when-not-suitable\">When MIM May Not Be Suitable<\/a><\/li>\r\n        <li><a href=\"#rfq-checklist\">RFQ and Drawing Review Checklist<\/a><\/li>\r\n        <li><a href=\"#medical-device-boundaries\">Medical Device Boundary<\/a><\/li>\r\n        <li><a href=\"#faq\">FAQ<\/a><\/li>\r\n      <\/ul>\r\n    <\/nav>\r\n  <\/section>\r\n\r\n  <section id=\"parts-we-support\" class=\"xtmim-section\">\r\n    <h2>Endoscope MIM Parts We Can Support<\/h2>\r\n    <p>XTMIM reviews custom endoscope MIM components at the part level. The typical scope includes small mechanism parts used in grasping, biopsy, articulation, motion transfer, guide-channel and pivot assemblies. These are not complete endoscope systems or branded replacement parts. They are custom precision metal components manufactured according to customer drawings and engineering requirements.<\/p>\r\n\r\n    <div class=\"xtmim-badge-row\" aria-label=\"Representative endoscope MIM parts\">\r\n      <span class=\"xtmim-badge\">Small jaws<\/span>\r\n      <span class=\"xtmim-badge\">Biopsy forceps components<\/span>\r\n      <span class=\"xtmim-badge\">Articulation links<\/span>\r\n      <span class=\"xtmim-badge\">Drive blocks<\/span>\r\n      <span class=\"xtmim-badge\">Knife guides<\/span>\r\n      <span class=\"xtmim-badge\">Guide-channel parts<\/span>\r\n      <span class=\"xtmim-badge\">Locking components<\/span>\r\n      <span class=\"xtmim-badge\">Pivot-feature parts<\/span>\r\n    <\/div>\r\n\r\n    <figure class=\"xtmim-figure\">\r\n      <img loading=\"lazy\" src=\"https:\/\/xtmim.com\/wp-content\/uploads\/2026\/05\/02-typical-endoscope-mim-components.webp\" alt=\"Typical small endoscope MIM components including jaw-like parts, thin links, compact drive blocks, guide-channel parts and pivot features\" title=\"Typical Endoscope MIM Components\" width=\"1600\" height=\"900\" loading=\"lazy\" decoding=\"async\">\r\n      <figcaption>Typical endoscope MIM component groups include small jaws, thin links, compact drive blocks, guide-channel components and pivot features.<\/figcaption>\r\n      <div class=\"xtmim-figure-note\">\r\n        <strong>Core conclusion:<\/strong>\r\n        <p>This image defines the page scope: small complex metal mechanism components, not complete endoscope systems, branded repair parts or general medical accessories.<\/p>\r\n      <\/div>\r\n    <\/figure>\r\n  <\/section>\r\n\r\n  <section id=\"typical-component-groups\" class=\"xtmim-section\">\r\n    <h2>Typical Endoscope MIM Component Groups<\/h2>\r\n    <p>The table below summarizes the component groups most often reviewed for endoscope-related MIM projects. It is intended as a part-display module for product engineers and sourcing teams before they enter detailed DFM review.<\/p>\r\n\r\n    <div class=\"xtmim-table-wrap\">\r\n      <table>\r\n        <thead>\r\n          <tr>\r\n            <th>Part Group<\/th>\r\n            <th>Representative Parts<\/th>\r\n            <th>Typical Structure<\/th>\r\n            <th>Common Material Direction<\/th>\r\n            <th>Custom Review Focus<\/th>\r\n          <\/tr>\r\n        <\/thead>\r\n        <tbody>\r\n          <tr>\r\n            <td>Grasper and biopsy components<\/td>\r\n            <td>Small jaws, cup components, forceps heads<\/td>\r\n            <td>Teeth, thin lips, cup geometry, pivot holes<\/td>\r\n            <td>420, 17-4 PH or 316L depending on function<\/td>\r\n            <td>Jaw alignment, burr control, edge condition, paired inspection<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Articulation components<\/td>\r\n            <td>Links, connectors, lock bars<\/td>\r\n            <td>Thin arms, small holes, slots, compact link geometry<\/td>\r\n            <td>17-4 PH or 420 candidates<\/td>\r\n            <td>Sintering distortion, hole position, load direction, fatigue-sensitive zones<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Drive and locking parts<\/td>\r\n            <td>Drive blocks, lock blocks, sliders<\/td>\r\n            <td>Guide slots, shoulders, contact faces, compact block features<\/td>\r\n            <td>17-4 PH, 420 or other stainless steel candidates<\/td>\r\n            <td>Slot accuracy, wear zones, mating surfaces, secondary machining need<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Guide-channel components<\/td>\r\n            <td>Knife guides, guide blocks, channel supports<\/td>\r\n            <td>Narrow channels, contact edges, guide surfaces<\/td>\r\n            <td>420 or 440C candidates where hardness is important<\/td>\r\n            <td>Edge finish, slot control, burr limits, inspection access<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Pivot-feature parts<\/td>\r\n            <td>Small pivot parts, pin-interface components, rotating features<\/td>\r\n            <td>Small holes, bosses, circular interfaces, alignment features<\/td>\r\n            <td>Stainless steel candidates based on load and corrosion needs<\/td>\r\n            <td>Hole roundness, pin fit, reaming allowance, functional gauge planning<\/td>\r\n          <\/tr>\r\n        <\/tbody>\r\n      <\/table>\r\n    <\/div>\r\n\r\n    <p>A <a href=\"https:\/\/www.mimaweb.org\/CaseStudies\/Medical-Dental\/EndoscopicDeviceParts.aspx\" target=\"_blank\" rel=\"nofollow noopener\">MIMA endoscopic device parts case study<\/a> documents MIM articulation lock bars, articulation connectors, articulation drive blocks and knife guides using stainless steel MIM materials such as 17-4 and 420. This supports the real application basis for endoscope MIM components, although each commercial project still requires drawing-level review.<\/p>\r\n  <\/section>\r\n\r\n  <section id=\"representative-structures\" class=\"xtmim-section\">\r\n    <h2>Representative Structures and Custom Features<\/h2>\r\n    <p>Endoscope MIM parts are usually selected for review because the structure is too compact or complex for efficient full machining. The part name alone is not enough. XTMIM reviews the actual geometry, functional surfaces, mating requirements and expected production route.<\/p>\r\n\r\n    <div class=\"xtmim-grid xtmim-grid-3\">\r\n      <div class=\"xtmim-card\">\r\n        <h3>Small Jaws and Cup Features<\/h3>\r\n        <p>Used in grasping or biopsy-related mechanisms. Review points include thin lips, teeth, cup geometry, jaw closing alignment, pivot holes and burr-sensitive edges.<\/p>\r\n      <\/div>\r\n\r\n      <div class=\"xtmim-card\">\r\n        <h3>Thin Articulation Links<\/h3>\r\n        <p>Used for motion transfer in compact mechanisms. Review points include thin arms, hole patterns, load direction, shrinkage movement and sintering support strategy.<\/p>\r\n      <\/div>\r\n\r\n      <div class=\"xtmim-card\">\r\n        <h3>Compact Drive Blocks<\/h3>\r\n        <p>Used to transfer force or motion. Review points include guide slots, shoulders, contact surfaces, secondary machining allowance and wear-related material selection.<\/p>\r\n      <\/div>\r\n\r\n      <div class=\"xtmim-card\">\r\n        <h3>Guide-Channel Features<\/h3>\r\n        <p>Used to guide small moving parts or cutting-path elements. Review points include slot width, edge condition, surface finish, burr control and inspection access.<\/p>\r\n      <\/div>\r\n\r\n      <div class=\"xtmim-card\">\r\n        <h3>Pivot Holes and Pin Interfaces<\/h3>\r\n        <p>Used for rotation or assembly alignment. Review points include hole roundness, pin fit, datum strategy, reaming need and functional gauge planning.<\/p>\r\n      <\/div>\r\n\r\n      <div class=\"xtmim-card\">\r\n        <h3>Locking and Contact Features<\/h3>\r\n        <p>Used in compact locking, sliding or positioning functions. Review points include parting line location, gate mark position, contact wear and surface finishing route.<\/p>\r\n      <\/div>\r\n    <\/div>\r\n\r\n    <div class=\"xtmim-note\">\r\n      <p><strong>Custom part boundary:<\/strong> These structures are reviewed as manufacturable metal components, not as finished medical device functions. The final device owner should define use conditions, validation requirements, cleaning expectations and regulatory boundaries.<\/p>\r\n    <\/div>\r\n  <\/section>\r\n\r\n  <section id=\"materials-finishes\" class=\"xtmim-section\">\r\n    <h2>Material and Surface Finish Options for Endoscope MIM Components<\/h2>\r\n    <p>Material selection for endoscope MIM parts should start from component function, not from a generic \u201cmedical grade\u201d label. A drive block may be strength-driven, a guide component may be wear-driven, while a corrosion-focused component may require a different stainless steel direction. Detailed material data belongs to dedicated material pages; this section only gives selection direction for endoscope-related component RFQs.<\/p>\r\n\r\n    <figure class=\"xtmim-figure\">\r\n      <img loading=\"lazy\" src=\"https:\/\/xtmim.com\/wp-content\/uploads\/2026\/05\/04-endoscope-mim-material-selection.webp\" alt=\"Material selection visual for endoscope MIM components based on strength, hardness, corrosion resistance and wear requirements\" title=\"Material Selection Factors for Endoscope MIM Components\" width=\"1600\" height=\"1067\" loading=\"lazy\" decoding=\"async\">\r\n      <figcaption>Endoscope MIM material selection should match component function, not a generic medical label.<\/figcaption>\r\n      <div class=\"xtmim-figure-note\">\r\n        <strong>Core conclusion:<\/strong>\r\n        <p>A drive block may be strength-driven, a guide component may need wear and hardness review, while a corrosion-focused small component may require a different stainless steel choice.<\/p>\r\n      <\/div>\r\n    <\/figure>\r\n\r\n    <p>For broader material comparison, review <a href=\"https:\/\/xtmim.com\/mim-materials\/\">MIM materials<\/a> and <a href=\"https:\/\/xtmim.com\/mim-materials\/stainless-steel\/\">MIM stainless steel material options<\/a>.<\/p>\r\n\r\n    <div class=\"xtmim-note\">\r\n      <p><strong>Material selection caveat:<\/strong> The materials below are candidate options, not fixed recommendations for every endoscope component. Final selection should consider load direction, hardness target, corrosion exposure, mating parts, edge condition, heat treatment, surface finishing, customer specification and device-level validation requirements.<\/p>\r\n    <\/div>\r\n\r\n    <div class=\"xtmim-table-wrap\">\r\n      <table>\r\n        <thead>\r\n          <tr>\r\n            <th>Requirement<\/th>\r\n            <th>Candidate Material Direction<\/th>\r\n            <th>Typical Review Point<\/th>\r\n            <th>Related Material Page<\/th>\r\n          <\/tr>\r\n        <\/thead>\r\n        <tbody>\r\n          <tr>\r\n            <td>Strength-driven links or blocks<\/td>\r\n            <td>17-4 PH stainless steel<\/td>\r\n            <td>Heat treatment, dimensional change, corrosion expectation and distortion risk<\/td>\r\n            <td><a href=\"https:\/\/xtmim.com\/mim-materials\/stainless-steel\/17-4-ph\/\">17-4 PH MIM stainless steel<\/a><\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Hardness or contact surfaces<\/td>\r\n            <td>420 stainless steel<\/td>\r\n            <td>Edge stability, wear, corrosion trade-off and finishing route<\/td>\r\n            <td><a href=\"https:\/\/xtmim.com\/mim-materials\/stainless-steel\/420\/\">420 MIM stainless steel<\/a><\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Corrosion-focused components<\/td>\r\n            <td>316L stainless steel<\/td>\r\n            <td>Lower hardness, wear limitation, ductility and corrosion exposure<\/td>\r\n            <td><a href=\"https:\/\/xtmim.com\/mim-materials\/stainless-steel\/316l\/\">316L MIM stainless steel<\/a><\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Higher wear or hardness needs<\/td>\r\n            <td>440C stainless steel<\/td>\r\n            <td>Brittleness risk, edge chipping, sliding contact and corrosion review<\/td>\r\n            <td><a href=\"https:\/\/xtmim.com\/mim-materials\/stainless-steel\/440c\/\">440C MIM stainless steel<\/a><\/td>\r\n          <\/tr>\r\n        <\/tbody>\r\n      <\/table>\r\n    <\/div>\r\n\r\n    <h3>Common Surface Finish and Post-Processing Directions<\/h3>\r\n    <p>Surface finish and post-processing should be defined according to the component function. MIM can form the complex base geometry, but selected surfaces may still require secondary operations to meet assembly, motion, edge or corrosion requirements.<\/p>\r\n\r\n    <div class=\"xtmim-table-wrap\">\r\n      <table>\r\n        <thead>\r\n          <tr>\r\n            <th>Requirement<\/th>\r\n            <th>Possible Operation<\/th>\r\n            <th>When It May Be Needed<\/th>\r\n          <\/tr>\r\n        <\/thead>\r\n        <tbody>\r\n          <tr>\r\n            <td>Pivot hole fit<\/td>\r\n            <td>Reaming, drilling or sizing<\/td>\r\n            <td>When hole roundness, position or pin fit is critical to movement<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Jaw or guide edge condition<\/td>\r\n            <td>Deburring, polishing or edge control<\/td>\r\n            <td>When edges contact mating parts, grip surfaces or guide movement<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Corrosion-focused surfaces<\/td>\r\n            <td>Passivation or surface cleaning route<\/td>\r\n            <td>When customer specifications require corrosion-related surface treatment<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Strength or hardness adjustment<\/td>\r\n            <td>Heat treatment where suitable<\/td>\r\n            <td>When the selected material and part geometry allow heat treatment review<\/td>\r\n          <\/tr>\r\n        <\/tbody>\r\n      <\/table>\r\n    <\/div>\r\n  <\/section>\r\n\r\n  <section id=\"application-fit\" class=\"xtmim-section\">\r\n    <h2>Application Direction and Custom Project Fit<\/h2>\r\n    <p>Endoscope MIM components may be reviewed for different mechanism directions. The application background helps the engineering team understand whether the component is load-bearing, wear-sensitive, corrosion-sensitive, edge-sensitive or mainly used for positioning and motion transfer.<\/p>\r\n\r\n    <div class=\"xtmim-grid xtmim-grid-4\">\r\n      <div class=\"xtmim-resource-card\">\r\n        <strong>Grasping and biopsy mechanisms<\/strong>\r\n        <p>Small jaws, cup components and biopsy forceps-related parts where jaw alignment, edge condition and pivot fit matter.<\/p>\r\n      <\/div>\r\n      <div class=\"xtmim-resource-card\">\r\n        <strong>Articulation and bending mechanisms<\/strong>\r\n        <p>Thin links, connectors and compact movement-transfer parts where distortion, hole position and support strategy matter.<\/p>\r\n      <\/div>\r\n      <div class=\"xtmim-resource-card\">\r\n        <strong>Drive and locking mechanisms<\/strong>\r\n        <p>Drive blocks, lock blocks and sliders where slots, contact surfaces, wear and secondary machining may need review.<\/p>\r\n      <\/div>\r\n      <div class=\"xtmim-resource-card\">\r\n        <strong>Guide or cutting-path support<\/strong>\r\n        <p>Guide components and knife guide features where slot width, edge control, burr limits and finish requirements matter.<\/p>\r\n      <\/div>\r\n    <\/div>\r\n\r\n    <p>For broader medical component categories, review the <a href=\"https:\/\/xtmim.com\/mim-parts\/medical-parts\/\">medical MIM parts overview<\/a>. For requirement-based pages, see <a href=\"https:\/\/xtmim.com\/mim-parts\/high-precision-parts\/\">high-precision MIM part requirements<\/a>, <a href=\"https:\/\/xtmim.com\/mim-parts\/wear-resistant-parts\/\">wear-resistant MIM part review<\/a> and <a href=\"https:\/\/xtmim.com\/mim-parts\/corrosion-resistant-parts\/\">corrosion-resistant MIM part review<\/a>.<\/p>\r\n  <\/section>\r\n\r\n  <section id=\"showcase-rfq\" class=\"xtmim-section\">\r\n    <div class=\"xtmim-cta\">\r\n      <h2>Send Drawings for Endoscope MIM Part Review<\/h2>\r\n      <p>If your endoscope component includes small jaws, biopsy forceps features, articulation links, drive blocks, guide channels, pivot holes, thin arms, narrow slots or functional edges, XTMIM can review the drawing for MIM manufacturability before tooling.<\/p>\r\n      <p>Please provide 2D drawings, 3D CAD files, material requirements, CTQ dimensions, tolerance requirements, surface finish expectations, edge or burr requirements, mating part information, estimated annual volume and application background.<\/p>\r\n      <div class=\"xtmim-btn-group\">\r\n        <a class=\"xtmim-btn\" href=\"https:\/\/xtmim.com\/submit-drawing-for-review\/\">Submit Drawing for Review<\/a>\r\n        <a class=\"xtmim-btn xtmim-btn-secondary\" href=\"https:\/\/xtmim.com\/contact-us\/\">Contact Engineering Team<\/a>\r\n      <\/div>\r\n    <\/div>\r\n  <\/section>\r\n\r\n<\/article>\t\t\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t<div class=\"elementor-element elementor-element-975b56e e-con-full e-flex cmsmasters-block-default e-con e-parent\" data-id=\"975b56e\" data-element_type=\"container\" data-e-type=\"container\">\n\t\t<div class=\"elementor-element elementor-element-9b09fc9 e-flex e-con-boxed cmsmasters-block-default e-con e-child\" data-id=\"9b09fc9\" data-element_type=\"container\" data-e-type=\"container\">\n\t\t\t\t\t<div class=\"e-con-inner\">\n\t\t\t\t<div class=\"elementor-element elementor-element-cb256fe cmsmasters-block-default cmsmasters-sticky-default elementor-widget elementor-widget-html\" data-id=\"cb256fe\" data-element_type=\"widget\" data-e-type=\"widget\" data-widget_type=\"html.default\">\n\t\t\t\t\t<article class=\"xtmim-endoscope-parts xtmim-endoscope-engineering\">\r\n\r\n  <section id=\"why-mim\" class=\"xtmim-section\">\r\n    <h2>Why These Endoscope Components May Fit MIM<\/h2>\r\n    <p>MIM is useful for endoscopic device components when the part combines small size with geometric complexity. The process starts with fine metal powder mixed with binder to form feedstock. The feedstock is injection molded, the green part is handled carefully, the binder is removed through debinding, and the part is sintered to reach final density and dimensions. Because the molded part shrinks during sintering, the tool must compensate for shrinkage, and critical dimensions must be reviewed before tooling.<\/p>\r\n\r\n    <p>The <a href=\"https:\/\/www.epma.com\/what-is-pm\/powder-metallurgy-process\/metal-injection-moulding-mim\/\" target=\"_blank\" rel=\"nofollow noopener\">EPMA overview of metal injection moulding<\/a> describes MIM as a process for complex-shaped parts in high quantities and explains why the route becomes less attractive when a part can be made economically by simpler powder metallurgy or machining routes. This matters for endoscope components because MIM should be selected for geometry and production logic, not simply because the part is small.<\/p>\r\n\r\n    <h3>Small Complex Geometry<\/h3>\r\n    <p>Endoscope components often include small holes and pivot interfaces, thin arms and link sections, cup-shaped jaw geometry, guide slots, internal channels, small teeth, compact three-dimensional surfaces and integrated locating or locking features. A common mistake is to judge only the outer size of the part. From a design review perspective, the real issue is whether internal features, thin regions, parting line, gate location and sintering support strategy can be controlled together.<\/p>\r\n\r\n    <h3>Repeatable Production After Tooling<\/h3>\r\n    <p>MIM becomes more attractive when the design is stable and the annual demand can justify tooling. Once the tooling, feedstock, debinding, sintering and inspection route are validated, the process can support repeatable production of complex small parts.<\/p>\r\n\r\n    <p>This does not mean every endoscope part should be made by MIM. If the part is still in early prototype iteration, or if only a few pieces are needed, CNC machining or other prototype methods may be more practical before committing to MIM tooling.<\/p>\r\n\r\n    <h3>Reduced Machining for Difficult Features<\/h3>\r\n    <p>MIM can reduce machining when the part contains complex molded features that can be formed near-net shape. Examples include small jaw profiles, integrated link shapes, compact drive blocks or guide features. However, critical holes, slots, sharp edges or contact surfaces may still require secondary machining, sizing, polishing, deburring or inspection fixtures.<\/p>\r\n\r\n    <div class=\"xtmim-note\">\r\n      <p><strong>Engineering question:<\/strong> The correct question is not \u201cCan MIM avoid all machining?\u201d The better question is which features can be molded reliably, which features must be corrected after sintering, and whether the combined route still improves cost, repeatability or design freedom compared with full machining.<\/p>\r\n    <\/div>\r\n\r\n    <h3>When MIM Becomes a Better Fit Than CNC or Stamping<\/h3>\r\n    <p>MIM may be a better fit when the geometry is too complex for economical CNC machining, multiple machined features can be integrated into one molded component, part size is small enough for MIM economics, production volume supports tooling investment, the material is available as a suitable MIM feedstock, and critical features can be controlled by a combined tooling, sintering and inspection strategy.<\/p>\r\n\r\n    <p>MIM may not be the best first choice if the part is large, simple, low-volume, frequently changing, or defined by ultra-tight dimensions that would require extensive post-machining.<\/p>\r\n  <\/section>\r\n\r\n  <section id=\"dfm-review\" class=\"xtmim-section\">\r\n    <h2>DFM Risks Before Tooling<\/h2>\r\n    <p>Endoscope MIM components should be reviewed before tooling because small design choices can affect mold filling, debinding stability, sintering shrinkage, distortion, burr formation and inspection repeatability. For a broader review route, see the <a href=\"https:\/\/xtmim.com\/mim-design-guide\/dfm\/\">MIM DFM review before tooling<\/a>.<\/p>\r\n\r\n    <figure class=\"xtmim-figure\">\r\n      <img loading=\"lazy\" src=\"https:\/\/xtmim.com\/wp-content\/uploads\/2026\/05\/03-endoscope-mim-dfm-review-points.webp\" alt=\"DFM review visual showing thin arms, pivot holes, guide slots and gate areas on small endoscope MIM mechanism components\" title=\"DFM Review Points for Small Endoscope MIM Components\" width=\"1600\" height=\"1067\" loading=\"lazy\" decoding=\"async\">\r\n      <figcaption>Thin arms, pivot holes, guide slots and gate areas should be reviewed before MIM tooling.<\/figcaption>\r\n      <div class=\"xtmim-figure-note\">\r\n        <strong>Core conclusion:<\/strong>\r\n        <p>Feature-level review is essential because the overall part size does not guarantee stable molding, debinding, sintering or final assembly fit.<\/p>\r\n      <\/div>\r\n    <\/figure>\r\n\r\n    <h3>Thin Arms and Long Slender Features<\/h3>\r\n    <p>Thin arms are common in articulation links and small mechanical connectors. The risk is not only breakage; the larger issue is dimensional movement during debinding and sintering. Thin features may bend, twist or shrink unevenly if the geometry is not balanced.<\/p>\r\n\r\n    <ul>\r\n      <li>Minimum wall section and transition areas.<\/li>\r\n      <li>Gate position and flow path.<\/li>\r\n      <li>Support direction during sintering.<\/li>\r\n      <li>Fixture or setter requirement.<\/li>\r\n      <li>Inspection datum strategy.<\/li>\r\n      <li>Whether the feature is load-bearing or only locating.<\/li>\r\n    <\/ul>\r\n\r\n    <h3>Small Holes, Slots and Pivot Interfaces<\/h3>\r\n    <p>Small holes and slots are common in jaws, links, drive blocks and pivot features. They may be molded, machined, reamed or finished depending on tolerance and function. For additional design guidance, review <a href=\"https:\/\/xtmim.com\/mim-design-guide\/holes-slots-undercuts\/\">MIM holes, slots and undercuts<\/a>.<\/p>\r\n\r\n    <div class=\"xtmim-table-wrap\">\r\n      <table>\r\n        <thead>\r\n          <tr>\r\n            <th>Feature<\/th>\r\n            <th>Typical Risk<\/th>\r\n            <th>Review Before Tooling<\/th>\r\n          <\/tr>\r\n        <\/thead>\r\n        <tbody>\r\n          <tr>\r\n            <td>Small pivot hole<\/td>\r\n            <td>Shrinkage variation, roundness, assembly fit<\/td>\r\n            <td>Hole size, datum, reaming allowance<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Narrow slot<\/td>\r\n            <td>Width variation, distortion, burrs<\/td>\r\n            <td>Slot function, secondary machining need<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Long guide channel<\/td>\r\n            <td>Warpage, contact inconsistency<\/td>\r\n            <td>Support strategy, material, finishing<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Cross-hole<\/td>\r\n            <td>Tooling complexity, flash risk<\/td>\r\n            <td>Mold action, parting line, inspection access<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Paired hole pattern<\/td>\r\n            <td>Misalignment during assembly<\/td>\r\n            <td>Datum scheme, functional gauge possibility<\/td>\r\n          <\/tr>\r\n        <\/tbody>\r\n      <\/table>\r\n    <\/div>\r\n\r\n    <h3>Teeth, Edges and Cup-Shaped Features<\/h3>\r\n    <p>Teeth and cup-shaped features are common in grasper jaws and biopsy forceps components. These features affect function, but they also create molding and finishing challenges. The drawing should clarify whether the edge is used for cutting, gripping, alignment or clearance. Each function leads to a different manufacturing review.<\/p>\r\n\r\n    <h3>Undercuts, Parting Lines and Gate Location<\/h3>\r\n    <p>Undercuts, parting lines and gate location influence mold complexity and visible or functional surface quality. In endoscope parts, a gate mark or parting line should not be placed on a critical sliding surface, jaw contact edge, pivot interface or sealing-related surface without review.<\/p>\r\n\r\n    <h3>Sintering Support and Distortion Risk<\/h3>\r\n    <p>Sintering distortion is one of the most important risks in thin endoscope MIM components. Because the part shrinks during sintering, thin arms, asymmetric features and uneven mass distribution may cause dimensional movement. The review should consider how the part will be oriented and supported during sintering, not only how it will be molded. For more geometry-specific review, see <a href=\"https:\/\/xtmim.com\/mim-design-guide\/sintering-supports\/\">MIM sintering supports<\/a>.<\/p>\r\n  <\/section>\r\n\r\n  <section id=\"tolerance-surface-edge\" class=\"xtmim-section\">\r\n    <h2>Tolerance, CTQ and Inspection Review<\/h2>\r\n    <p>Endoscope MIM components often fail not because the general shape is impossible, but because the critical dimensions are not separated from non-critical dimensions. A good drawing should identify which dimensions control motion, alignment, mating, gripping, blade guidance or inspection acceptance. For general process capability boundaries, see <a href=\"https:\/\/xtmim.com\/mim-design-guide\/mim-tolerances\/\">MIM tolerances<\/a>.<\/p>\r\n\r\n    <figure class=\"xtmim-figure\">\r\n      <img loading=\"lazy\" src=\"https:\/\/xtmim.com\/wp-content\/uploads\/2026\/05\/05-endoscope-mim-inspection-review.webp\" alt=\"Inspection scene with small MIM endoscope mechanism components, technical drawing outlines and measurement equipment for tolerance review\" title=\"Inspection and Drawing Review for Endoscope MIM Components\" width=\"1600\" height=\"900\" loading=\"lazy\" decoding=\"async\">\r\n      <figcaption>Critical holes, slots, edges and mating surfaces should be reviewed before tooling and RFQ.<\/figcaption>\r\n      <div class=\"xtmim-figure-note\">\r\n        <strong>Core conclusion:<\/strong>\r\n        <p>Endoscope MIM part inquiries should be based on drawings, critical dimensions and inspection requirements, not only part names.<\/p>\r\n      <\/div>\r\n    <\/figure>\r\n\r\n    <h3>Critical Dimensions Are Usually Assembly-Driven<\/h3>\r\n    <p>Critical dimensions may include pivot hole position, jaw spacing, slot width, mating surface flatness, pin fit, guide channel width or paired component alignment. These dimensions should be reviewed against the actual assembly function.<\/p>\r\n\r\n    <div class=\"xtmim-table-wrap\">\r\n      <table>\r\n        <thead>\r\n          <tr>\r\n            <th>CTQ Feature<\/th>\r\n            <th>Why It Matters<\/th>\r\n            <th>Engineering Review<\/th>\r\n          <\/tr>\r\n        <\/thead>\r\n        <tbody>\r\n          <tr>\r\n            <td>Pivot hole position<\/td>\r\n            <td>Controls motion, alignment and pin fit<\/td>\r\n            <td>Datum strategy, reaming need, functional gauge or CMM inspection<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Jaw closing alignment<\/td>\r\n            <td>Affects gripping, sampling or closing function<\/td>\r\n            <td>Paired inspection, edge finishing and mating part review<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Slot width<\/td>\r\n            <td>Controls guide or drive fit<\/td>\r\n            <td>As-sintered capability versus secondary machining<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Contact surface<\/td>\r\n            <td>Affects wear and motion transfer<\/td>\r\n            <td>Material, finishing, flatness and surface inspection<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Burr-sensitive edge<\/td>\r\n            <td>Affects mating, movement, cleaning-related design or functional edge condition<\/td>\r\n            <td>Burr limit, polishing route, visual criteria and drawing clarity<\/td>\r\n          <\/tr>\r\n        <\/tbody>\r\n      <\/table>\r\n    <\/div>\r\n\r\n    <h3>Edge Radius, Burr Control and Contact Surfaces<\/h3>\r\n    <p>Endoscope components may include functional edges, gripping teeth, guide surfaces or sliding interfaces. The drawing should define whether the edge must be sharp, broken, polished, radiused or burr-free within a functional limit. A vague note such as \u201cno burr\u201d is often not enough. The buyer should specify where burrs matter most, what surfaces contact mating parts, and whether polishing or passivation is expected.<\/p>\r\n\r\n    <h3>Surface Finish and Cleaning-Related Geometry<\/h3>\r\n    <p>For medical device components, surface condition can affect assembly, motion, cleaning-related design considerations and device-level validation. The MIM component supplier can review surface finish feasibility, but final cleaning and sterilization requirements should be confirmed by the device owner.<\/p>\r\n  <\/section>\r\n\r\n  <section id=\"secondary-operations\" class=\"xtmim-section\">\r\n    <h2>Secondary Machining, Finishing and Post-Processing<\/h2>\r\n    <p>Some endoscope MIM parts can use as-sintered features for non-critical geometry, while selected functional areas may require secondary machining or finishing. This does not mean the part is unsuitable for MIM. In many projects, the most practical route is to use MIM for the complex base geometry and apply secondary operations only to CTQ features.<\/p>\r\n\r\n    <div class=\"xtmim-table-wrap\">\r\n      <table>\r\n        <thead>\r\n          <tr>\r\n            <th>Feature or Requirement<\/th>\r\n            <th>Possible Secondary Operation<\/th>\r\n            <th>Reason for Review<\/th>\r\n          <\/tr>\r\n        <\/thead>\r\n        <tbody>\r\n          <tr>\r\n            <td>Precision pivot hole<\/td>\r\n            <td>Reaming, drilling or sizing<\/td>\r\n            <td>Improves fit control when as-sintered tolerance is not enough<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Guide slot or drive slot<\/td>\r\n            <td>Machining, sizing or controlled finishing<\/td>\r\n            <td>Supports movement accuracy and mating part clearance<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Jaw edge or cup edge<\/td>\r\n            <td>Deburring, polishing or edge radius control<\/td>\r\n            <td>Reduces burr risk and improves functional edge consistency<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Contact surface<\/td>\r\n            <td>Polishing, lapping or selected machining<\/td>\r\n            <td>Improves contact behavior, motion stability or wear-related surfaces<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Corrosion-related surface requirement<\/td>\r\n            <td>Passivation or customer-specified cleaning process<\/td>\r\n            <td>Should follow customer specification and device-level validation needs<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Strength or hardness requirement<\/td>\r\n            <td>Heat treatment where suitable<\/td>\r\n            <td>Must be reviewed with material, geometry, distortion and final inspection<\/td>\r\n          <\/tr>\r\n        <\/tbody>\r\n      <\/table>\r\n    <\/div>\r\n  <\/section>\r\n\r\n  <section id=\"when-not-suitable\" class=\"xtmim-section\">\r\n    <h2>When MIM May Not Be Suitable for Endoscope Components<\/h2>\r\n    <p>MIM is not always the correct route. A credible project review should identify unsuitable cases early, before tooling cost is committed.<\/p>\r\n\r\n    <div class=\"xtmim-grid xtmim-grid-2\">\r\n      <div class=\"xtmim-card\">\r\n        <h3>Very Low Annual Volume<\/h3>\r\n        <p>If the project only requires a few prototypes or uncertain early-stage samples, CNC machining, additive manufacturing or manual fabrication may be more practical for the first design iteration. MIM becomes stronger when the design is stable and production volume can support tooling.<\/p>\r\n      <\/div>\r\n\r\n      <div class=\"xtmim-card\">\r\n        <h3>Oversized or Simple Machined Components<\/h3>\r\n        <p>If the endoscope component is large, simple, flat or easily machined, MIM may add unnecessary tooling cost and process complexity. Simpler shapes may not justify MIM economics.<\/p>\r\n      <\/div>\r\n\r\n      <div class=\"xtmim-card\">\r\n        <h3>Extremely Tight Features That Require Full Machining<\/h3>\r\n        <p>If most of the part\u2019s important surfaces require precision machining after sintering, MIM may not create enough value. In those cases, a machined route or a hybrid manufacturing strategy should be reviewed.<\/p>\r\n      <\/div>\r\n\r\n      <div class=\"xtmim-card\">\r\n        <h3>Uncontrolled Thin Sections or Sharp Internal Corners<\/h3>\r\n        <p>Very thin unsupported arms, sharp internal corners, abrupt wall transitions and narrow fragile edges can create molding, debinding and sintering problems. These features may still be possible, but they should be reviewed and modified before tooling.<\/p>\r\n      <\/div>\r\n    <\/div>\r\n  <\/section>\r\n\r\n  <section id=\"articulation-link-scenario\" class=\"xtmim-section\">\r\n    <h2>Composite Engineering Review Scenario: Articulation Link Distortion<\/h2>\r\n    <div class=\"xtmim-card\">\r\n      <p><strong>What problem occurred:<\/strong> A small articulation link design showed inconsistent hole alignment after sintering. The outer profile appeared acceptable, but the link did not assemble smoothly with the mating mechanism.<\/p>\r\n      <p><strong>Why it happened:<\/strong> The link had thin arms, asymmetric mass distribution and small pivot holes close to a transition zone. The original drawing focused on nominal hole size but did not define enough functional datum information.<\/p>\r\n      <p><strong>What the real system cause was:<\/strong> The issue was not only the hole diameter. The real cause was the combination of sintering distortion, weak datum definition, thin-arm geometry and insufficient review of how the part would be supported during sintering.<\/p>\r\n      <p><strong>How it was corrected:<\/strong> The design review adjusted the datum strategy, identified which hole required secondary finishing, reviewed sintering support orientation and clarified which surfaces were functional.<\/p>\r\n      <p><strong>How to prevent recurrence:<\/strong> For similar articulation links, the drawing should identify critical hole patterns, mating components, load direction, support-sensitive surfaces and inspection method before tooling.<\/p>\r\n    <\/div>\r\n  <\/section>\r\n\r\n  <section id=\"guide-slot-scenario\" class=\"xtmim-section\">\r\n    <h2>Composite Engineering Review Scenario: Guide Slot Control<\/h2>\r\n    <div class=\"xtmim-card\">\r\n      <p><strong>What problem occurred:<\/strong> A guide component concept included a narrow guide slot with a functional edge, but the drawing did not clearly separate guide width, edge condition and burr requirement.<\/p>\r\n      <p><strong>Why it happened:<\/strong> The design team assumed the slot could be molded to final functional condition without secondary finishing.<\/p>\r\n      <p><strong>What the real system cause was:<\/strong> The slot was both a molded feature and a functional guide surface. The edge requirement, wear expectation and inspection method were not defined early.<\/p>\r\n      <p><strong>How it was corrected:<\/strong> The review classified the slot as a critical-to-function feature, added secondary finishing allowance, clarified edge condition and selected a material route based on contact and wear expectations.<\/p>\r\n      <p><strong>How to prevent recurrence:<\/strong> For guide-channel components, slot function, edge condition, burr allowance, material hardness and post-sintering finishing should be reviewed together before tooling.<\/p>\r\n    <\/div>\r\n  <\/section>\r\n\r\n  <section id=\"rfq-checklist\" class=\"xtmim-section\">\r\n    <h2>Endoscope MIM Part RFQ and Drawing Review Checklist<\/h2>\r\n    <p>A strong RFQ package helps the engineering team review manufacturability before tooling instead of discovering problems during trial production.<\/p>\r\n\r\n    <h3>What to Provide for a DFM Review<\/h3>\r\n    <div class=\"xtmim-table-wrap\">\r\n      <table>\r\n        <thead>\r\n          <tr>\r\n            <th>RFQ Input<\/th>\r\n            <th>Why It Matters<\/th>\r\n          <\/tr>\r\n        <\/thead>\r\n        <tbody>\r\n          <tr>\r\n            <td>2D drawing<\/td>\r\n            <td>Defines dimensions, tolerances, material and notes.<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>3D CAD file<\/td>\r\n            <td>Helps evaluate geometry, tooling, gate and shrinkage.<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Material requirement<\/td>\r\n            <td>Guides feedstock and heat treatment review.<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Critical-to-quality dimensions<\/td>\r\n            <td>Separates pivot holes, slot width, jaw alignment, mating faces and burr-sensitive edges from general dimensions.<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Tolerance requirements<\/td>\r\n            <td>Helps identify as-sintered features versus features that may need secondary machining.<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Surface finish requirement<\/td>\r\n            <td>Affects polishing, deburring and inspection route.<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Edge or burr requirement<\/td>\r\n            <td>Important for jaws, guide surfaces and contact features.<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Mating part information<\/td>\r\n            <td>Helps review assembly fit, motion, pivot clearance and contact surfaces.<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Annual volume<\/td>\r\n            <td>Determines whether MIM tooling is economically reasonable.<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Application background<\/td>\r\n            <td>Helps identify load, wear, corrosion or cleaning concerns.<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td>Prototype or production stage<\/td>\r\n            <td>Affects process recommendation and risk level.<\/td>\r\n          <\/tr>\r\n        <\/tbody>\r\n      <\/table>\r\n    <\/div>\r\n\r\n    <h3>What XTMIM Engineers Will Check<\/h3>\r\n    <ul>\r\n      <li>Whether the geometry is suitable for MIM.<\/li>\r\n      <li>Whether wall thickness and transitions are reasonable.<\/li>\r\n      <li>Whether holes, slots and undercuts are moldable or need secondary operations.<\/li>\r\n      <li>Where gates and parting lines may be placed.<\/li>\r\n      <li>Whether sintering support may affect critical dimensions.<\/li>\r\n      <li>Whether the material is suitable for the function.<\/li>\r\n      <li>Which dimensions should be inspected as critical-to-function.<\/li>\r\n      <li>Whether secondary machining, polishing, passivation or heat treatment may be required.<\/li>\r\n    <\/ul>\r\n\r\n    <h3>Typical Questions Before Tooling<\/h3>\r\n    <ul>\r\n      <li>Which dimensions control assembly?<\/li>\r\n      <li>Which edges are functional?<\/li>\r\n      <li>Which surfaces contact moving parts?<\/li>\r\n      <li>Is the component reusable or single-use?<\/li>\r\n      <li>Is the part in prototype validation or production planning?<\/li>\r\n      <li>Are there cleaning, passivation or surface requirements?<\/li>\r\n      <li>What annual quantity is expected?<\/li>\r\n      <li>Are mating parts available for review?<\/li>\r\n    <\/ul>\r\n\r\n    <div class=\"xtmim-cta\">\r\n      <h2>Request an Endoscope MIM Component Review<\/h2>\r\n      <p>If your endoscope component includes small jaws, articulation links, drive blocks, guide components, pivot holes, thin arms, narrow slots or functional edges, send your drawing package for a MIM manufacturability review.<\/p>\r\n      <p>Please provide 2D drawings, 3D CAD files, material requirements, tolerance requirements, CTQ dimensions, surface finish expectations, edge or burr requirements, mating part information, estimated annual volume and application background. XTMIM engineers can review MIM suitability, tooling risk, sintering distortion risk, material options, secondary machining needs, inspection strategy and open issues before tooling, trial production or production planning.<\/p>\r\n      <div class=\"xtmim-btn-group\">\r\n        <a class=\"xtmim-btn\" href=\"https:\/\/xtmim.com\/contact-us\/\">Contact Engineering Team<\/a>\r\n        <a class=\"xtmim-btn xtmim-btn-secondary\" href=\"https:\/\/xtmim.com\/submit-drawing-for-review\/\">Submit Drawing for Review<\/a>\r\n        <a class=\"xtmim-btn xtmim-btn-secondary\" href=\"https:\/\/xtmim.com\/request-a-quote\/\">Request a Quote<\/a>\r\n      <\/div>\r\n    <\/div>\r\n  <\/section>\r\n\r\n  <section id=\"medical-device-boundaries\" class=\"xtmim-section\">\r\n    <h2>Medical Device Compliance and Validation Boundary<\/h2>\r\n    <p>Endoscope MIM parts should be discussed carefully because they may be used in medical devices, but the MIM component itself is not the same as a finished, validated medical device.<\/p>\r\n\r\n    <p><a href=\"https:\/\/www.fda.gov\/regulatory-information\/search-fda-guidance-documents\/reprocessing-medical-devices-health-care-settings-validation-methods-and-labeling\" target=\"_blank\" rel=\"nofollow noopener\">FDA guidance on reprocessing reusable medical devices<\/a> focuses on the formulation and scientific validation of reprocessing instructions for reusable devices. This supports the point that cleaning, disinfection, sterilization and labeling validation belong to the device-level development and regulatory process, not to a generic component page.<\/p>\r\n\r\n    <h3>XTMIM Reviews Component Manufacturability, Not Complete Device Approval<\/h3>\r\n    <p>XTMIM can review whether a metal part is suitable for MIM based on geometry, material, tolerance, secondary operations, surface finishing and inspection. XTMIM should not claim that an endoscope component is automatically approved for medical use.<\/p>\r\n\r\n    <h3>Biocompatibility, Cleaning and Sterilization Need Device-Level Validation<\/h3>\r\n    <p><a href=\"https:\/\/www.fda.gov\/regulatory-information\/search-fda-guidance-documents\/use-international-standard-iso-10993-1-biological-evaluation-medical-devices-part-1-evaluation-and\" target=\"_blank\" rel=\"nofollow noopener\">FDA guidance on ISO 10993-1 biological evaluation<\/a> explains the use of biological evaluation within a risk management process to support medical device applications. This means material and biological safety evaluation must be handled in the context of the final device, body contact, duration, processing and intended use.<\/p>\r\n\r\n    <h3>What Buyers Should Confirm Before Production<\/h3>\r\n    <ul>\r\n      <li>Material requirement and applicable standard.<\/li>\r\n      <li>Whether the part contacts tissue, fluid, instrument channels or other device elements.<\/li>\r\n      <li>Cleaning, sterilization or passivation expectations.<\/li>\r\n      <li>Critical dimensions and inspection plan.<\/li>\r\n      <li>Traceability and documentation needs.<\/li>\r\n      <li>Whether the component is prototype, validation build or production part.<\/li>\r\n    <\/ul>\r\n  <\/section>\r\n\r\n  <section id=\"related-resources\" class=\"xtmim-section\">\r\n    <h2>Related MIM Medical Parts, Materials and Design Resources<\/h2>\r\n    <p>Use these pages to continue the review without mixing page intent. This Endoscope Parts page focuses on specific endoscopic mechanism components, while the pages below cover broader part categories, material families or design rules.<\/p>\r\n\r\n    <div class=\"xtmim-grid xtmim-grid-4\">\r\n      <div class=\"xtmim-resource-card\">\r\n        <strong>Medical MIM Parts<\/strong>\r\n        <p>Review broader medical component categories before narrowing into endoscope-specific parts.<\/p>\r\n        <a href=\"https:\/\/xtmim.com\/mim-parts\/medical-parts\/\">View medical parts<\/a>\r\n      <\/div>\r\n      <div class=\"xtmim-resource-card\">\r\n        <strong>MIM Part Families<\/strong>\r\n        <p>Compare cross-industry component types such as shafts, pins and high-precision parts.<\/p>\r\n        <a href=\"https:\/\/xtmim.com\/mim-parts\/\">View MIM parts<\/a>\r\n      <\/div>\r\n      <div class=\"xtmim-resource-card\">\r\n        <strong>Engineering Requirements<\/strong>\r\n        <p>Review precision, wear, corrosion and strength requirements without changing this page\u2019s endoscope component focus.<\/p>\r\n        <a href=\"https:\/\/xtmim.com\/mim-parts\/high-precision-parts\/\">View high-precision MIM part requirements<\/a>\r\n      <\/div>\r\n      <div class=\"xtmim-resource-card\">\r\n        <strong>MIM Design Guide<\/strong>\r\n        <p>Check holes, slots, undercuts, tolerances, DFM and sintering support before tooling.<\/p>\r\n        <a href=\"https:\/\/xtmim.com\/mim-design-guide\/\">View design guide<\/a>\r\n      <\/div>\r\n    <\/div>\r\n\r\n    <p>For cross-industry pivot structures, see <a href=\"https:\/\/xtmim.com\/mim-parts\/shafts-pins\/\">MIM shafts and pins for pivot features<\/a>. For process background, see <a href=\"https:\/\/xtmim.com\/metal-injection-molding\/\">metal injection molding<\/a> and the <a href=\"https:\/\/xtmim.com\/mim-process\/\">MIM process<\/a> overview.<\/p>\r\n  <\/section>\r\n\r\n  <section id=\"standards-references\" class=\"xtmim-section xtmim-standards\">\r\n    <h2>Standards and Technical References Note<\/h2>\r\n    <p>The external references used on this page support topic scope and engineering boundaries. They do not replace project-specific drawings, material specifications, customer requirements, medical device risk management or formal regulatory review.<\/p>\r\n\r\n    <div class=\"xtmim-table-wrap\">\r\n      <table>\r\n        <thead>\r\n          <tr>\r\n            <th>Reference<\/th>\r\n            <th>Why It Is Relevant Here<\/th>\r\n            <th>How It Should Be Used<\/th>\r\n          <\/tr>\r\n        <\/thead>\r\n        <tbody>\r\n          <tr>\r\n            <td><a href=\"https:\/\/www.mimaweb.org\/CaseStudies\/Medical-Dental\/EndoscopicDeviceParts.aspx\" target=\"_blank\" rel=\"nofollow noopener\">MIMA Endoscopic Device Parts Case Study<\/a><\/td>\r\n            <td>Documents real endoscopic device components made by metal injection molding, including articulation and guide components.<\/td>\r\n            <td>Supports application relevance, not a universal material choice, performance guarantee or medical approval claim.<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td><a href=\"https:\/\/www.epma.com\/what-is-pm\/powder-metallurgy-process\/metal-injection-moulding-mim\/\" target=\"_blank\" rel=\"nofollow noopener\">EPMA Metal Injection Moulding Overview<\/a><\/td>\r\n            <td>Explains MIM as a route for small complex parts and clarifies selection boundaries versus simpler routes.<\/td>\r\n            <td>Supports process selection logic and \u201cwhen not to use MIM\u201d decisions.<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td><a href=\"https:\/\/www.fda.gov\/regulatory-information\/search-fda-guidance-documents\/reprocessing-medical-devices-health-care-settings-validation-methods-and-labeling\" target=\"_blank\" rel=\"nofollow noopener\">FDA Reprocessing Medical Devices Guidance<\/a><\/td>\r\n            <td>Clarifies that cleaning and reprocessing validation are device-level responsibilities.<\/td>\r\n            <td>Supports cautious language around reusable device validation and labeling; it is not a component-level certification claim.<\/td>\r\n          <\/tr>\r\n          <tr>\r\n            <td><a href=\"https:\/\/www.fda.gov\/regulatory-information\/search-fda-guidance-documents\/use-international-standard-iso-10993-1-biological-evaluation-medical-devices-part-1-evaluation-and\" target=\"_blank\" rel=\"nofollow noopener\">FDA ISO 10993-1 Biological Evaluation Guidance<\/a><\/td>\r\n            <td>Explains biological evaluation within a medical device risk management process.<\/td>\r\n            <td>Supports the boundary that biocompatibility claims must be handled at device level.<\/td>\r\n          <\/tr>\r\n        <\/tbody>\r\n      <\/table>\r\n    <\/div>\r\n\r\n    <p>For production projects, the applicable material standards, inspection methods, surface finishing requirements, traceability needs and regulatory documents should be confirmed by the device owner and qualified regulatory or quality teams before tooling or production approval.<\/p>\r\n  <\/section>\r\n\r\n  <section id=\"faq\" class=\"xtmim-section xtmim-faq\">\r\n    <h2>FAQ: Endoscope MIM Parts<\/h2>\r\n\r\n    <details>\r\n      <summary>Can MIM be used for endoscope grasper jaws?<\/summary>\r\n      <p>Yes, MIM can be considered for endoscope grasper jaws when the part includes small teeth, cup geometry, pivot holes, curved surfaces or integrated features that are difficult to machine efficiently. The key review points are jaw alignment, edge condition, burr control, material selection and whether any critical holes or contact surfaces require secondary finishing.<\/p>\r\n    <\/details>\r\n\r\n    <details>\r\n      <summary>What endoscope components are commonly suitable for MIM?<\/summary>\r\n      <p>Common candidates include grasper jaws, biopsy forceps components, articulation links, articulation connectors, drive blocks, guide components, locking parts and small pivot features. Suitability depends on geometry, wall thickness, tolerance, material, production volume and inspection requirements.<\/p>\r\n    <\/details>\r\n\r\n    <details>\r\n      <summary>Which stainless steels are used for endoscope MIM parts?<\/summary>\r\n      <p>Possible stainless steels include 17-4 PH, 420, 316L and 440C, depending on the part function. 17-4 PH may be reviewed for strength-driven components, 420 for hardness or contact features, 316L for corrosion-focused parts and 440C for higher hardness or wear requirements. Final material selection must follow the drawing, application and device-level requirements.<\/p>\r\n    <\/details>\r\n\r\n    <details>\r\n      <summary>Can MIM achieve tight tolerances for pivot holes and slots?<\/summary>\r\n      <p>MIM can produce small holes and slots, but tight functional tolerances may require secondary machining, reaming, sizing or special inspection. Pivot holes, guide slots and mating surfaces should be identified as critical-to-function dimensions before tooling.<\/p>\r\n    <\/details>\r\n\r\n    <details>\r\n      <summary>Do endoscope MIM parts require secondary machining?<\/summary>\r\n      <p>Some endoscope MIM parts can be used as-sintered for non-critical features, but critical holes, slots, guide surfaces, contact faces or edges may require secondary machining or finishing. The best approach is to define which features must be controlled after sintering.<\/p>\r\n    <\/details>\r\n\r\n    <details>\r\n      <summary>Is MIM suitable for low-volume endoscope prototypes?<\/summary>\r\n      <p>MIM is usually not the first choice for very low-volume prototypes because it requires tooling. CNC machining or additive manufacturing may be more practical during early design iteration. MIM becomes more suitable when the design is stable and production volume supports tooling investment.<\/p>\r\n    <\/details>\r\n\r\n    <details>\r\n      <summary>Who is responsible for medical device validation and biocompatibility testing?<\/summary>\r\n      <p>The device owner or qualified medical device manufacturer is responsible for final device-level validation, biocompatibility evaluation, cleaning validation, sterilization validation and regulatory submission requirements. XTMIM can support component-level MIM manufacturability review, material feasibility review and inspection planning.<\/p>\r\n    <\/details>\r\n\r\n    <details>\r\n      <summary>Does XTMIM provide medical device certification for endoscope MIM parts?<\/summary>\r\n      <p>No. XTMIM supports component manufacturing review, MIM process feasibility, material feasibility, secondary operation planning and inspection review. Final medical device certification, regulatory submission, biological evaluation, cleaning validation and sterilization validation must be handled by the device owner or qualified medical device manufacturer.<\/p>\r\n    <\/details>\r\n\r\n    <details>\r\n      <summary>What information should I provide for an endoscope MIM part quotation?<\/summary>\r\n      <p>Provide 2D drawings, 3D CAD files, material requirements, critical dimensions, tolerance requirements, surface finish expectations, edge or burr requirements, mating part information, annual volume and application background. This helps the engineering team review MIM suitability, tooling risk, secondary operations and inspection requirements.<\/p>\r\n    <\/details>\r\n  <\/section>\r\n\r\n  <section class=\"xtmim-author\" aria-label=\"Engineering review note\">\r\n    <p><strong>Reviewed by XTMIM Engineering Team<\/strong><\/p>\r\n    <p>This article was prepared for engineers, sourcing teams and project managers evaluating endoscope MIM components. The review focus includes MIM process suitability, material selection, DFM risk, tooling feasibility, green part handling, debinding and sintering distortion risk, tolerance strategy, surface and edge requirements, secondary operation planning and inspection requirements.<\/p>\r\n    <p>XTMIM does not use this page to claim complete medical device approval, sterilization validation or regulatory certification. Final device-level validation, biocompatibility evaluation and regulatory submission requirements should be confirmed by the medical device owner or qualified regulatory team.<\/p>\r\n  <\/section>\r\n\r\n<\/article>\r\n\r\n<script type=\"application\/ld+json\">\r\n{\r\n  \"@context\": \"https:\/\/schema.org\",\r\n  \"@graph\": [\r\n    {\r\n      \"@type\": \"BreadcrumbList\",\r\n      \"@id\": \"https:\/\/xtmim.com\/mim-parts\/medical-parts\/endoscope-parts\/#breadcrumb\",\r\n      \"itemListElement\": [\r\n        {\r\n          \"@type\": \"ListItem\",\r\n          \"position\": 1,\r\n          \"name\": \"Home\",\r\n          \"item\": \"https:\/\/xtmim.com\/\"\r\n        },\r\n        {\r\n          \"@type\": \"ListItem\",\r\n          \"position\": 2,\r\n          \"name\": \"MIM Parts\",\r\n          \"item\": \"https:\/\/xtmim.com\/mim-parts\/\"\r\n        },\r\n        {\r\n          \"@type\": \"ListItem\",\r\n          \"position\": 3,\r\n          \"name\": \"Medical MIM 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This page first shows what types of endoscope MIM parts can be reviewed for custom production, including&#8230;<\/p>","protected":false},"author":1,"featured_media":54743,"parent":53553,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"class_list":["post-54761","page","type-page","status-publish","has-post-thumbnail","hentry"],"_links":{"self":[{"href":"https:\/\/xtmim.com\/ko\/wp-json\/wp\/v2\/pages\/54761","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/xtmim.com\/ko\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/xtmim.com\/ko\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/xtmim.com\/ko\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/xtmim.com\/ko\/wp-json\/wp\/v2\/comments?post=54761"}],"version-history":[{"count":7,"href":"https:\/\/xtmim.com\/ko\/wp-json\/wp\/v2\/pages\/54761\/revisions"}],"predecessor-version":[{"id":54799,"href":"https:\/\/xtmim.com\/ko\/wp-json\/wp\/v2\/pages\/54761\/revisions\/54799"}],"up":[{"embeddable":true,"href":"https:\/\/xtmim.com\/ko\/wp-json\/wp\/v2\/pages\/53553"}],"wp:featuredmedia":[{"embeddable":true,"href":"https:\/\/xtmim.com\/ko\/wp-json\/wp\/v2\/media\/54743"}],"wp:attachment":[{"href":"https:\/\/xtmim.com\/ko\/wp-json\/wp\/v2\/media?parent=54761"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}