{"id":2157,"date":"2026-05-26T14:10:00","date_gmt":"2026-05-26T06:10:00","guid":{"rendered":"https:\/\/jeez-semicon.com\/?p=2157"},"modified":"2026-05-26T14:26:14","modified_gmt":"2026-05-26T06:26:14","slug":"mechanical-polishing-of-stainless-steel-process-standards","status":"publish","type":"post","link":"https:\/\/jeez-semicon.com\/zh\/blog\/mechanical-polishing-of-stainless-steel-process-standards\/","title":{"rendered":"Mechanical Polishing of Stainless Steel: Process Sequences, Grit Progression, and Industry Standards"},"content":{"rendered":"<!-- CLUSTER 2: Mechanical Polishing of Stainless Steel | JEEZ -->\n<style>\n.jz,.jz *,.jz *::before,.jz *::after{box-sizing:border-box}\n.jz{font-family:'Georgia','Times New Roman',serif;font-size:17px;line-height:1.85;color:#1a1a2e;max-width:860px;margin:0 auto;padding:0 20px 60px}\n.jz h2{font-family:'Trebuchet MS','Segoe UI',sans-serif;font-size:1.72rem;font-weight:700;color:#0a1628;margin:2.8rem 0 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h1{font-size:1.6rem}.jz-cta{padding:28px 18px}}\n<\/style>\n\n<article class=\"jz\" itemscope itemtype=\"https:\/\/schema.org\/Article\">\n\n<div class=\"jz-hero\">\n  <div class=\"jz-hero-label\">Material-Specific Process Guide<\/div>\n  \n  <p class=\"jz-hero-sub\">A complete technical reference for engineers specifying or performing mechanical polishing on 304, 316, and 316L stainless steel \u2014 covering grit sequences, work hardening management, ASME BPE compliance, and semiconductor equipment applications.<\/p>\n  <div class=\"jz-hero-meta\">\n    <span>Updated: May 2026<\/span>\n    <span>By JEEZ Engineering Team<\/span>\n    <span>~2,000 words<\/span>\n  <\/div>\n<\/div>\n\n<nav class=\"jz-toc\" aria-label=\"\u76ee\u5f55\">\n  <div class=\"jz-toc-title\">\u76ee\u5f55<\/div>\n  <ol>\n    <li><a href=\"#c2-why\">Why Stainless Steel Polishing Requires Specific Process Control<\/a><\/li>\n    <li><a href=\"#c2-grades\">Stainless Steel Grades and Their Polishability<\/a><\/li>\n    <li><a href=\"#c2-grit\">Grit Sequence and Finish Progression<\/a><\/li>\n    <li><a href=\"#c2-workhardening\">Managing Work Hardening During Polishing<\/a><\/li>\n    <li><a href=\"#c2-methods\">Polishing Methods for Stainless Steel<\/a><\/li>\n    <li><a href=\"#c2-standards\">Applicable Standards: ASME BPE and ASTM B912<\/a><\/li>\n    <li><a href=\"#c2-semi\">Stainless Steel Polishing in Semiconductor Equipment<\/a><\/li>\n    <li><a href=\"#c2-defects\">Common Defects and Prevention<\/a><\/li>\n    <li><a href=\"#c2-faq\">\u5e38\u89c1\u95ee\u9898<\/a><\/li>\n  <\/ol>\n<\/nav>\n\n<p itemprop=\"description\">Stainless steel is the dominant structural and process-wetted material in semiconductor manufacturing equipment, pharmaceutical process vessels, and food-grade fluid handling systems \u2014 and mechanical polishing is the primary technique used to bring its surfaces to specification. However, polishing stainless steel presents a set of challenges that do not apply to softer metals: austenitic grades work-harden rapidly under abrasive contact, grit sequence management is critical to prevent cross-contamination between steps, and the target finish is tightly governed by standards such as ASME BPE and ASTM B912. This article provides a detailed process guide for engineers responsible for specifying or executing stainless steel polishing operations. For a broader overview of polishing principles, refer to our <a href=\"https:\/\/jeez-semicon.com\/zh\/blog\/What-Is-Mechanical-Polishing-a-complete-technical-guide-for-semiconductor-manufacturing\/\" target=\"_blank\" rel=\"noopener\">complete mechanical polishing guide<\/a>.<\/p>\n\n<h2 id=\"c2-why\">1. Why Stainless Steel Polishing Requires Specific Process Control<\/h2>\n<p>Stainless steel \u2014 particularly the austenitic grades (304, 316, 316L) most commonly used in semiconductor equipment and pharmaceutical vessels \u2014 presents three interrelated challenges during mechanical polishing:<\/p>\n<ul>\n  <li><strong>Work hardening:<\/strong> Austenitic stainless steel work-hardens rapidly under abrasive contact. The surface layer becomes progressively harder as polishing proceeds, increasing abrasive wear rates and the risk of leaving a heavily deformed sub-surface layer that is difficult to remove in subsequent steps.<\/li>\n  <li><strong>Chromium carbide precipitation risk:<\/strong> If polishing generates excessive localized heat (e.g., from dry grinding without coolant, or from excessive dwell time with a worn belt), sensitization can occur in the heat-affected zone, depleting chromium from grain boundaries and severely reducing corrosion resistance. This is particularly critical for 304 versus 316L, the latter having lower carbon content specifically to resist sensitization.<\/li>\n  <li><strong>Grit cross-contamination:<\/strong> Abrasive particles from a coarser grit step embedded in the surface will cause deep scratching if they migrate to the next, finer grit step. Each polishing step must completely remove all damage from the prior step before progressing.<\/li>\n<\/ul>\n\n<h2 id=\"c2-grades\">2. Stainless Steel Grades and Their Polishability<\/h2>\n<div class=\"jz-table-wrap\">\n  <table class=\"jz-table\">\n    <thead><tr><th>Grade<\/th><th>Composition Key<\/th><th>Work Hardening Rate<\/th><th>Polishability<\/th><th>\u5178\u578b\u5e94\u7528<\/th><\/tr><\/thead>\n    <tbody>\n      <tr><td><strong>304 \/ 304L<\/strong><\/td><td>18% Cr, 8% Ni<\/td><td>\u9ad8<\/td><td>Good; requires careful grit progression<\/td><td>Structural components, tanks, general equipment<\/td><\/tr>\n      <tr><td><strong>316 \/ 316L<\/strong><\/td><td>16% Cr, 10% Ni, 2% Mo<\/td><td>\u9ad8<\/td><td>Very good; preferred for high-finish applications<\/td><td>Pharmaceutical vessels, semiconductor process equipment<\/td><\/tr>\n      <tr><td><strong>316L (low carbon)<\/strong><\/td><td>C \u2264 0.03%<\/td><td>\u9ad8<\/td><td>Excellent; preferred for electropolished ASME BPE surfaces<\/td><td>Biopharmaceutical, CMP slurry systems, UHP gas<\/td><\/tr>\n      <tr><td><strong>317L<\/strong><\/td><td>18% Cr, 13% Ni, 3% Mo<\/td><td>\u9ad8<\/td><td>\u826f\u597d<\/td><td>Highly corrosive chemical service<\/td><\/tr>\n      <tr><td><strong>2205 Duplex<\/strong><\/td><td>22% Cr, 5% Ni, 3% Mo<\/td><td>\u4e2d\u5ea6<\/td><td>More difficult; duplex microstructure resists uniform abrasion<\/td><td>High-pressure, chloride-rich environments<\/td><\/tr>\n    <\/tbody>\n  <\/table>\n<\/div>\n<p>For semiconductor process equipment and pharmaceutical vessels, <strong>316L is the material of choice<\/strong> because its low carbon content minimizes sensitization risk during welding and polishing, and its molybdenum content provides superior pitting corrosion resistance in chloride-containing environments.<\/p>\n\n<h2 id=\"c2-grit\">3. Grit Sequence and Finish Progression<\/h2>\n<p>The most common error in stainless steel polishing is skipping grit steps to save time \u2014 a shortcut that invariably results in a finished surface with residual deep scratches from earlier steps that the fine grit is incapable of removing. A correct grit progression removes all damage from the previous step before moving forward. As a general rule, each step should reduce the visible scratch depth by at least 50% before proceeding.<\/p>\n\n<div class=\"jz-table-wrap\">\n  <table class=\"jz-table\">\n    <thead><tr><th>Stage<\/th><th>Grit Range<\/th><th>Approx. Ra (\u00b5m)<\/th><th>Finish Designation<\/th><th>Purpose<\/th><\/tr><\/thead>\n    <tbody>\n      <tr><td>Stock Removal<\/td><td>36 \u2013 80<\/td><td>1.6 \u2013 3.2<\/td><td>As-ground<\/td><td>Remove weld spatter, deep pits, mill scale, thermal discoloration<\/td><\/tr>\n      <tr><td>Rough Polish<\/td><td>80 \u2013 120<\/td><td>0.8 \u2013 1.6<\/td><td>#3 Grinding<\/td><td>Remove stock-removal scratches; establish uniform surface texture<\/td><\/tr>\n      <tr><td>Intermediate<\/td><td>150 \u2013 180<\/td><td>0.4 \u2013 0.8<\/td><td>#4 Brushed<\/td><td>Approach sanitary-grade finish; required by 3-A Sanitary Standard for food contact<\/td><\/tr>\n      <tr><td>Fine Polish<\/td><td>220 \u2013 320<\/td><td>0.2 \u2013 0.4<\/td><td>#6 Satin<\/td><td>ASME BPE SF1 (mechanical finish); suitable for low-risk pharmaceutical contact<\/td><\/tr>\n      <tr><td>Pre-EP Polish<\/td><td>400 \u2013 600<\/td><td>0.05 \u2013 0.1<\/td><td>#7 Buffed<\/td><td>Required pre-condition before electropolishing for ASME BPE SF4+<\/td><\/tr>\n      <tr><td>Mirror \/ Optical<\/td><td>800 \u2013 1200 + compound<\/td><td>&lt; 0.025<\/td><td>#8 Mirror<\/td><td>Decorative, optical, ultra-clean applications<\/td><\/tr>\n    <\/tbody>\n  <\/table>\n<\/div>\n\n<div class=\"jz-callout amber\">\n  <div class=\"jz-callout-title\">Critical Process Rule<\/div>\n  <p>Never skip more than one grit step. If the previous step used 120-grit, the next step should use 150 or 180-grit \u2014 not jump to 320-grit. Attempting to bridge large grit gaps simply replaces coarse scratches with a different pattern of medium scratches, adding polishing time without progressing the finish.<\/p>\n<\/div>\n\n<h2 id=\"c2-workhardening\">4. Managing Work Hardening During Polishing<\/h2>\n<p>The work-hardening behavior of austenitic stainless steel is the most technically challenging aspect of mechanical polishing. As abrasive contact deforms the surface layer, the martensite transformation (austenite \u2192 deformation-induced martensite) increases hardness dramatically \u2014 from a starting value of approximately 150\u2013180 HV for annealed 316L to over 350 HV in the cold-worked layer. This increased hardness:<\/p>\n<ul>\n  <li>Reduces material removal rate in subsequent polishing steps<\/li>\n  <li>Increases abrasive belt and wheel wear rates<\/li>\n  <li>Makes it harder for each subsequent grit step to fully remove the previous step&#8217;s damage layer<\/li>\n  <li>Can cause tearing or smearing of the surface if the abrasive is too fine for the hardness level<\/li>\n<\/ul>\n<p><strong>Mitigation strategies<\/strong> include using adequate coolant or lubricant (prevents additional heat-induced hardening), maintaining appropriate belt pressure (excessive pressure accelerates work hardening), using sharp, fresh abrasive (dull abrasive rubs rather than cuts, generating more deformation), and annealing severely work-hardened workpieces between polishing stages for critical applications.<\/p>\n\n<h2 id=\"c2-methods\">5. Polishing Methods for Stainless Steel<\/h2>\n<div class=\"jz-steps\">\n  <div class=\"jz-step\">\n    <div class=\"jz-step-bar\"><\/div>\n    <div class=\"jz-step-num\">01<\/div>\n    <div class=\"jz-step-title\">Belt Grinding<\/div>\n    <p>Most efficient for flat and cylindrical external surfaces. Aluminum oxide or zirconia-alumina belts. Speed 15\u201330 m\/s. Best for high stock removal in early grit stages.<\/p>\n  <\/div>\n  <div class=\"jz-step\">\n    <div class=\"jz-step-bar\"><\/div>\n    <div class=\"jz-step-num\">02<\/div>\n    <div class=\"jz-step-title\">Flap Wheel \/ Disc Polishing<\/div>\n    <p>Conformable abrasive flaps follow contoured surfaces and weld seams. Used for intermediate to fine polish stages on complex geometry.<\/p>\n  <\/div>\n  <div class=\"jz-step\">\n    <div class=\"jz-step-bar\"><\/div>\n    <div class=\"jz-step-num\">03<\/div>\n    <div class=\"jz-step-title\">Rotary Buffing<\/div>\n    <p>Cotton or sisal buffing wheels with grease-based abrasive compounds. Achieves #7 to #8 finish. Final step before electropolishing or as delivered mirror finish.<\/p>\n  <\/div>\n  <div class=\"jz-step\">\n    <div class=\"jz-step-bar\"><\/div>\n    <div class=\"jz-step-num\">04<\/div>\n    <div class=\"jz-step-title\">Orbital Sanding<\/div>\n    <p>Random orbital or straight-line sanders for large flat plate sections. Produces consistent, non-directional finish texture. Common in tank shell polishing.<\/p>\n  <\/div>\n  <div class=\"jz-step\">\n    <div class=\"jz-step-bar\"><\/div>\n    <div class=\"jz-step-num\">05<\/div>\n    <div class=\"jz-step-title\">Tube \/ ID Polishing<\/div>\n    <p>Abrasive-impregnated flex-hones and tube polishing kits for internal bore finishing. Critical for sanitary tubing in pharmaceutical and semiconductor gas delivery.<\/p>\n  <\/div>\n<\/div>\n\n<h2 id=\"c2-standards\">6. Applicable Standards: ASME BPE and ASTM B912<\/h2>\n<p>Two standards govern the surface finish of stainless steel in semiconductor and pharmaceutical applications:<\/p>\n<h3>ASME BPE (Bioprocessing Equipment Standard)<\/h3>\n<p>Developed by the American Society of Mechanical Engineers, ASME BPE defines surface finish requirements for stainless steel equipment used in biopharmaceutical manufacturing. The SF (Surface Finish) classification system runs from SF1 (coarsest mechanical) to SF6 (finest electropolished). For semiconductor-adjacent applications \u2014 particularly CMP slurry systems and chemical delivery \u2014 SF3 or SF4 is the typical minimum requirement, with SF5 specified for the most critical wetted surfaces. See our detailed guide on <a href=\"https:\/\/jeez-semicon.com\/zh\/blog\/Surface-Finish-Standards:-Ra,-Grit,-and-ASME-BPE-Explained\/\" target=\"_blank\" rel=\"noopener\">Surface Finish Standards and ASME BPE classifications<\/a> for a complete breakdown.<\/p>\n\n<h3>ASTM B912<\/h3>\n<p>ASTM B912 covers passivation of stainless steels using electropolishing. It specifies minimum material removal (typically 25 \u00b5m per surface), post-treatment testing for passive film quality (ASTM A380 salt spray or water immersion test), and documentation requirements. For precision semiconductor equipment components, ASTM B912 compliance provides a verifiable, auditable record of the electropolishing treatment applied after mechanical polishing.<\/p>\n\n<div class=\"jz-callout teal\">\n  <div class=\"jz-callout-title\">Documentation Requirement<\/div>\n  <p>For semiconductor and pharmaceutical equipment, each polishing operation should be documented with: incoming Ra measurement (profilometer with calibration certificate), grit sequence record, final Ra measurement at minimum three representative locations, operator certification, and \u2014 where electropolishing follows \u2014 ASTM B912 treatment record. This documentation chain is required for equipment qualification and FDA\/EMA audit readiness.<\/p>\n<\/div>\n\n<h2 id=\"c2-semi\">7. Stainless Steel Polishing in Semiconductor Equipment<\/h2>\n<p>In semiconductor manufacturing, stainless steel polishing requirements arise primarily in two contexts: process equipment wetted surfaces (chemical delivery manifolds, slurry distribution systems, etch tool chambers) and facility infrastructure (ultra-pure water distribution, process gas piping). Both contexts demand consistent, documented surface quality.<\/p>\n<p>For <strong>CMP slurry delivery systems<\/strong>, which are JEEZ&#8217;s area of expertise, the interior surfaces of slurry tanks, distribution lines, and recirculation loops must be polished and passivated to prevent metallic contamination of the slurry. Metallic contamination of CMP slurry \u2014 even at the ppb level \u2014 can cause gate oxide integrity failures and increased device leakage when those metals are incorporated into transistor gate stacks during polishing. A properly polished and electropolished 316L surface, maintained under nitrogen blanket, provides the contamination-free environment required for advanced-node slurry handling.<\/p>\n<p>When evaluating suppliers for CMP consumables or polishing services, it is important to understand both the surface finish specification and the process controls behind it. Our guide on <a href=\"https:\/\/jeez-semicon.com\/zh\/blog\/Mechanical-Polishing-Services:-What-to-Look-For-in-a-Supplier\/\" target=\"_blank\" rel=\"noopener\">selecting a mechanical polishing supplier<\/a> covers the key evaluation criteria.<\/p>\n\n<h2 id=\"c2-defects\">8. Common Defects in Stainless Steel Polishing<\/h2>\n<div class=\"jz-table-wrap\">\n  <table class=\"jz-table\">\n    <thead><tr><th>\u7f3a\u9677<\/th><th>Cause<\/th><th>Prevention<\/th><\/tr><\/thead>\n    <tbody>\n      <tr><td><strong>Orange Peel<\/strong><\/td><td>Coarse grain structure (from improper annealing or excessive heat input during welding); grit step too fine for the grain size<\/td><td>Anneal to refine grain before polishing; do not skip coarse grit steps<\/td><\/tr>\n      <tr><td><strong>Directional Scratches Persisting<\/strong><\/td><td>Grit step skipped; insufficient dwell time at each grit stage<\/td><td>Rotate workpiece 90\u00b0 between grit stages; verify scratch removal under bright light before advancing<\/td><\/tr>\n      <tr><td><strong>Heat Tint \/ Bluing<\/strong><\/td><td>Excessive friction heat (dry polishing, worn belt, high pressure)<\/td><td>Use coolant; replace worn abrasives; reduce contact pressure<\/td><\/tr>\n      <tr><td><strong>Smearing \/ Glazing<\/strong><\/td><td>Abrasive too fine for work-hardened surface; belt speed too low<\/td><td>Step back to coarser grit to cut through hardened layer; increase belt speed<\/td><\/tr>\n      <tr><td><strong>Pitting Revealed Post-Polish<\/strong><\/td><td>Pre-existing corrosion pits uncovered by material removal<\/td><td>Inspect incoming material; additional stock removal may be required or affected areas may need weld repair<\/td><\/tr>\n    <\/tbody>\n  <\/table>\n<\/div>\n<p>For a comprehensive defect troubleshooting guide covering CMP and industrial polishing, see <a href=\"https:\/\/jeez-semicon.com\/zh\/blog\/Common-Defects-in-Mechanical-Polishing-&\/#038;-How-to-Fix-Them\" target=\"_blank\" rel=\"noopener\">Common Defects in Mechanical Polishing &amp; How to Fix Them<\/a>.<\/p>\n\n<hr class=\"jz-divider\">\n\n<h2 id=\"c2-faq\">9. Frequently Asked Questions<\/h2>\n<div itemscope itemtype=\"https:\/\/schema.org\/FAQPage\">\n  <div class=\"jz-faq-item\" itemscope itemprop=\"mainEntity\" itemtype=\"https:\/\/schema.org\/Question\">\n    <div class=\"jz-faq-q\" itemprop=\"name\">What grit do I need for a #4 finish on stainless steel?<\/div>\n    <div itemscope itemprop=\"acceptedAnswer\" itemtype=\"https:\/\/schema.org\/Answer\">\n      <p class=\"jz-faq-a\" itemprop=\"text\">A #4 brushed finish on stainless steel is typically achieved with 150 to 180-grit aluminum oxide belt or flap wheel, producing Ra approximately 0.4\u20130.8 \u00b5m. The finish direction is unidirectional (linear grain pattern). This finish meets 3-A Sanitary Standards for food-contact surfaces and ASME BPE SF1 for low-risk pharmaceutical contact applications.<\/p>\n    <\/div>\n  <\/div>\n  <div class=\"jz-faq-item\" itemscope itemprop=\"mainEntity\" itemtype=\"https:\/\/schema.org\/Question\">\n    <div class=\"jz-faq-q\" itemprop=\"name\">Why does stainless steel turn blue or gold during polishing?<\/div>\n    <div itemscope itemprop=\"acceptedAnswer\" itemtype=\"https:\/\/schema.org\/Answer\">\n      <p class=\"jz-faq-a\" itemprop=\"text\">Heat tint (blue, gold, or brown discoloration) during polishing indicates that the surface has reached temperatures sufficient to oxidize the chromium passive layer. This discoloration represents chromium depletion and reduces corrosion resistance. It must be removed by continuing to the next grit step with adequate cooling, or by chemical treatment (pickling paste). In pharmaceutical and semiconductor applications, heat tint on finished surfaces is a rejection criterion.<\/p>\n    <\/div>\n  <\/div>\n  <div class=\"jz-faq-item\" itemscope itemprop=\"mainEntity\" itemtype=\"https:\/\/schema.org\/Question\">\n    <div class=\"jz-faq-q\" itemprop=\"name\">What is the difference between 316 and 316L for polishing applications?<\/div>\n    <div itemscope itemprop=\"acceptedAnswer\" itemtype=\"https:\/\/schema.org\/Answer\">\n      <p class=\"jz-faq-a\" itemprop=\"text\">316L has a lower carbon content (\u2264 0.03% versus \u2264 0.08% for 316). This reduces the risk of chromium carbide precipitation at grain boundaries during heat exposure (sensitization), making 316L the preferred grade for welded and polished components in pharmaceutical and semiconductor service. The polishing process and grit sequences are identical for both grades; the difference is in post-weld corrosion performance.<\/p>\n    <\/div>\n  <\/div>\n<\/div>\n\n<hr class=\"jz-divider\">\n\n<h3>Related Technical Articles<\/h3>\n<div class=\"jz-related\">\n  <a class=\"jz-related-card\" href=\"https:\/\/jeez-semicon.com\/zh\/blog\/What-Is-Mechanical-Polishing-a-complete-technical-guide-for-semiconductor-manufacturing\/\" target=\"_blank\" rel=\"noopener\">\n    <div class=\"jz-related-icon\">\ud83d\udcd8<\/div>\n    <div class=\"jz-related-title\">Complete Mechanical Polishing Guide<\/div>\n    <div class=\"jz-related-desc\">Principles, CMP, materials, surface standards, and all industry applications in one reference.<\/div>\n  <\/a>\n  <a class=\"jz-related-card\" href=\"https:\/\/jeez-semicon.com\/zh\/blog\/Mechanical-Polishing-vs-Electropolishing:-Key-Differences\/\" target=\"_blank\" rel=\"noopener\">\n    <div class=\"jz-related-icon\">\u26a1<\/div>\n    <div class=\"jz-related-title\">Mechanical Polishing vs. Electropolishing<\/div>\n    <div class=\"jz-related-desc\">When to use each process and how to combine them for maximum surface quality.<\/div>\n  <\/a>\n  <a class=\"jz-related-card\" href=\"https:\/\/jeez-semicon.com\/zh\/blog\/Surface-Finish-Standards:-Ra,-Grit,-and-ASME-BPE-Explained\/\" target=\"_blank\" rel=\"noopener\">\n    <div class=\"jz-related-icon\">\ud83d\udcd0<\/div>\n    <div class=\"jz-related-title\">Surface Finish Standards: Ra &amp; ASME BPE<\/div>\n    <div class=\"jz-related-desc\">Full reference tables for Ra values, grit equivalents, and ASME BPE SF classifications.<\/div>\n  <\/a>\n  <a class=\"jz-related-card\" href=\"https:\/\/jeez-semicon.com\/zh\/blog\/Mechanical-Polishing-in-Pharmaceutical-&\/#038;-Food-Industries\" target=\"_blank\" rel=\"noopener\">\n    <div class=\"jz-related-icon\">\ud83e\uddea<\/div>\n    <div class=\"jz-related-title\">Pharmaceutical &amp; Food Industry Polishing<\/div>\n    <div class=\"jz-related-desc\">CIP\/SIP requirements, ASME BPE compliance, and passivation protocols.<\/div>\n  <\/a>\n<\/div>\n\n<div class=\"jz-brand\">\n  <div class=\"jz-brand-logo\">JEEZ<\/div>\n  <div class=\"jz-brand-text\">Published by the applications engineering team at <strong>Jizhi Electronic Technology Co., Ltd. (JEEZ)<\/strong> \u2014 manufacturer of CMP slurries, polishing pads, absorption films, and dicing blades for the semiconductor industry. Last reviewed: May 2026.<\/div>\n<\/div>\n\n<div class=\"jz-cta\">\n  <h2>CMP Consumables for Semiconductor Manufacturing<\/h2>\n  <p>JEEZ supplies precision CMP slurries, polishing pads, and absorption films qualified for advanced-node semiconductor applications. Contact our technical team to request samples or discuss process requirements.<\/p>\n  <div class=\"jz-cta-btns\">\n    <a class=\"jz-btn primary\" href=\"https:\/\/jeez-semicon.com\/zh\/contact\/\" target=\"_blank\" rel=\"noopener\">Request a Sample<\/a>\n    <a class=\"jz-btn outline\" href=\"https:\/\/jeez-semicon.com\/zh\/contact\/\" target=\"_blank\" rel=\"noopener\">Talk to an Engineer<\/a>\n  <\/div>\n<\/div>\n\n<\/article>","protected":false},"excerpt":{"rendered":"<p>Material-Specific Process Guide A complete technical reference for engineers specifying or performing mechanical polishing on 304, 316, and 316L stainless steel \u2014 covering grit sequences, work hardening management, ASME BPE  &#8230;<\/p>","protected":false},"author":1,"featured_media":2159,"comment_status":"closed","ping_status":"closed","sticky":false,"template":"","format":"standard","meta":{"_acf_changed":false,"footnotes":""},"categories":[9,59],"tags":[],"class_list":["post-2157","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-blog","category-industry"],"acf":[],"_links":{"self":[{"href":"https:\/\/jeez-semicon.com\/zh\/wp-json\/wp\/v2\/posts\/2157","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/jeez-semicon.com\/zh\/wp-json\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/jeez-semicon.com\/zh\/wp-json\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/jeez-semicon.com\/zh\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/jeez-semicon.com\/zh\/wp-json\/wp\/v2\/comments?post=2157"}],"version-history":[{"count":5,"href":"https:\/\/jeez-semicon.com\/zh\/wp-json\/wp\/v2\/posts\/2157\/revisions"}],"predecessor-version":[{"id":2199,"href":"https:\/\/jeez-semicon.com\/zh\/wp-json\/wp\/v2\/posts\/2157\/revisions\/2199"}],"wp:featuredmedia":[{"embeddable":true,"href":"https:\/\/jeez-semicon.com\/zh\/wp-json\/wp\/v2\/media\/2159"}],"wp:attachment":[{"href":"https:\/\/jeez-semicon.com\/zh\/wp-json\/wp\/v2\/media?parent=2157"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/jeez-semicon.com\/zh\/wp-json\/wp\/v2\/categories?post=2157"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/jeez-semicon.com\/zh\/wp-json\/wp\/v2\/tags?post=2157"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}