{"id":5251,"date":"2026-05-24T22:24:44","date_gmt":"2026-05-24T19:24:44","guid":{"rendered":"https:\/\/materialwizard.com.ua\/?page_id=5251"},"modified":"2026-06-07T08:26:04","modified_gmt":"2026-06-07T05:26:04","slug":"pa-ppa-cf","status":"publish","type":"page","link":"https:\/\/materialwizard.com.ua\/en\/pa-ppa-cf\/","title":{"rendered":"Examid\u00ae PA-CF \u2014 carbon-fiber polyamides (carbon nylons) for structural applications"},"content":{"rendered":"<p><!DOCTYPE html><br \/>\n<html lang=\"en\"><br \/>\n<head><br \/>\n<meta charset=\"UTF-8\" \/><br \/>\n<meta name=\"viewport\" content=\"width=device-width, initial-scale=1.0\" \/><br \/>\n<title>Carbon-Fiber-Filled Polyamides PA-CF \u2014 Examid\u00ae | Material Wizard<\/title><br \/>\n<meta name=\"description\" content=\"Examid\u00ae PA-CF carbon-fiber-filled polyamides: PA6 CF30, PA66 CF20\/30\/40, PA610 CF30, PPA CF33 and hybrid GF\/CF compounds. Real moduli of reinforced grades, low CLTE, dimensional accuracy, metal replacement and grade selection for your part.\" \/><\/p>\n<style>\n:root{\n  --paper:#f5f3ee;--white:#ffffff;--ink:#151922;--text:#263140;--muted:#667384;--line:#dde2e7;\n  --soft:#f1f4f6;--soft2:#eaf0f2;--graphite:#111821;--graphite2:#1e2835;--carbon:#2d3744;\n  --accent:#1d756f;--accent2:#ed8b3a;--blue:#2d6f9f;--danger:#b24747;--ok:#157a58;\n  --max:1320px;--content:1130px;--r:18px;--shadow:0 18px 42px rgba(19,29,42,.12);\n}\n*{box-sizing:border-box}html{scroll-behavior:smooth}body{margin:0;background:var(--paper);color:var(--text);font-family:Inter,Segoe UI,Arial,sans-serif;line-height:1.62;font-size:16px}a{color:var(--blue);text-decoration:none}a:hover{text-decoration:underline}\n.mw-pacf{max-width:var(--max);margin:0 auto;background:var(--white);box-shadow:0 0 0 1px rgba(20,30,40,.04)}\n.wrap{max-width:var(--content);margin:0 auto;padding:0 28px}.section{padding:76px 0;border-top:1px solid 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b{color:#111821}.pacf-score-track{height:10px;border-radius:999px;background:#e7eef1;overflow:hidden}.pacf-score-fill{height:100%;border-radius:999px;background:linear-gradient(90deg,#82bdb6,#1d756f)}.pacf-cell-note{font-size:13px;color:#536170;line-height:1.45}.pacf-radar-note{margin:24px 0 0;border-left:5px solid var(--accent2);background:#fff8ef;border:1px solid #f2d3ae;border-left-color:var(--accent2);border-radius:0 18px 18px 0;padding:18px 20px;color:#344454}.pacf-radar-note b{color:#151922}\n@media(max-width:900px){.pacf-radar-controls{grid-template-columns:1fr}.pacf-radar-card{padding:22px 12px}.pacf-radar-head{flex-direction:column;align-items:flex-start}.pacf-radar-head h3{font-size:23px}.pacf-radar-chart{width:100%}}<\/p>\n<\/style>\n<p><\/head><br \/>\n<body><\/p>\n<div class=\"mw-pacf\" id=\"pacf-top\">\n<nav class=\"local-nav\" aria-label=\"Landing page local navigation\">\n<div class=\"wrap navin\">\n<div class=\"brand\">Material<span>Wizard<\/span> \/ PA-CF<\/div>\n<div class=\"navlinks\">\n        <a href=\"#logic\">Material logic<\/a><a href=\"#properties\">Properties<\/a><a href=\"#pacf-radar-section\">Interactive<\/a><a href=\"#grades\">Examid\u00ae grades<\/a><a href=\"#risks\">Limitations<\/a><a href=\"#expertise\">Grade selection<\/a>\n      <\/div>\n<\/p><\/div>\n<\/nav>\n<header class=\"hero\">\n<div class=\"wrap hero-inner\">\n<div class=\"hero-copy\">\n<div class=\"tag\">Examid\u00ae PA-CF \/ carbon fiber reinforced polyamides<\/div>\n<h1 class=\"h1\">Examid\u00ae PA-CF for structures where stiffness, low weight and geometric repeatability are critical<\/h1>\n<p class=\"hero-sub\">PA-CF is worth designing into a project for assemblies where specific stiffness, low CLTE, deflection stability, dimensional accuracy and the mass-to-size efficiency of a molded part become decisive.<\/p>\n<p class=\"hero-note\">In PA-CF, the fiber percentage is only a starting parameter. The real behavior of the part is shaped by the matrix, the residual fiber length after plastication, flow orientation, interfacial adhesion, moisture, temperature and the geometry of the assembly.<\/p>\n<div class=\"hero-actions\">\n          <a class=\"btn primary\" href=\"tel:+380503232321\">\u260e Call us<\/a><br \/>\n          <a class=\"btn orange\" href=\"#tds-menu\">Get the TDS<\/a><br \/>\n          <a class=\"btn ghost\" href=\"https:\/\/mail.google.com\/mail\/?view=cm&#038;fs=1&#038;to=info%40materialwizard.com.ua&#038;su=%D0%97%D0%B0%D0%BF%D0%B8%D1%82%20Examid%C2%AE%20PA-CF\" target=\"_blank\" rel=\"noopener\">Send an inquiry<\/a>\n        <\/div>\n<div class=\"metrics\">\n<div class=\"metric\"><b>up to 24 GPa<\/b><span>tensile modulus of high-stiffness PA-CF grades<\/span><\/div>\n<div class=\"metric\"><b>1,28\u20131,40<\/b><span>g\/cm\u00b3; density lower than that of metals<\/span><\/div>\n<div class=\"metric\"><b>low CLTE<\/b><span>less thermal drift and a more stable clearance in the assembly<\/span><\/div>\n<div class=\"metric\"><b>PA6\u2013PPA<\/b><span>matrices for different temperature and moisture risks<\/span><\/div>\n<\/p><\/div>\n<\/p><\/div>\n<\/p><\/div>\n<\/header>\n<section class=\"section\">\n<div class=\"wrap\">\n<div class=\"quick-search\">\n<div>\n<div class=\"quick-title\">Quick navigation across the landing page<\/div>\n<p class=\"small\" style=\"margin:6px 0 0\">The buttons are placed after the key PA-CF explanation so the reader can jump straight to the section they need.<\/p>\n<\/div>\n<div class=\"quick-buttons\"><a href=\"#logic\">What PA-CF is<\/a><a href=\"#properties\">CF vs GF<\/a><a href=\"#pacf-radar-section\">Interactive comparison<\/a><a href=\"#tds-menu\">Download TDS<\/a><a href=\"#matrix\">Matrix selection<\/a><a href=\"#applications\">Applications<\/a><a href=\"#risks\">Where it does not fit<\/a><a href=\"#processing\">Processing<\/a><a href=\"#expertise\">Material Wizard grade selection<\/a><\/div>\n<\/div>\n<\/div>\n<\/section>\n<section class=\"section\" id=\"logic\">\n<div class=\"wrap\">\n<div class=\"kicker\">01 \u00b7 Material logic<\/div>\n<h2 class=\"h2\">PA-CF \u2014 a short-fiber structural composite with its own logic of design, molding and assembly calculation<\/h2>\n<div class=\"grid2\">\n<div>\n<p class=\"text\">In unfilled polyamide the matrix itself plays the key role: crystallinity, melting temperature, moisture absorption, melt viscosity and load-bearing capability. In PA-CF part of the load is transferred to the carbon fiber, shrinkage becomes lower and more anisotropic, and the modulus increases severalfold.<\/p>\n<p class=\"text\">The designation CF20, CF30 or CF40 is meaningful only together with the matrix and the processing context. The same CF content in different polyamides yields different levels of shrinkage, creep, impact endurance, electrostatic profile and dimensional stability after molding.<\/p>\n<div class=\"quote\">For Material Wizard, PA-CF is a distinct class of engineering compounds for parts where modulus, mass, anisotropy, geometric stability and long-term performance under load are managed simultaneously.<\/div>\n<\/p><\/div>\n<div class=\"design-check\" aria-label=\"Engineering questions before selecting PA-CF\">\n<h3>Before selecting PA-CF, the geometry, loads and melt flow path must be analyzed even before choosing a grade<\/h3>\n<p>Carbon fiber increases modulus and reduces deformation, but in a molded part the result is determined by the flow path through the mold, fiber orientation, weld-line zones and the actual loading regime.<\/p>\n<div class=\"check-list\">\n<div class=\"check-item\">\n<div class=\"check-num\">1<\/div>\n<div><b>Where is the part actually loaded?<\/b><span>Ribs, holes, thin bridges and sharp transitions often define the actual safety margin more accurately than averaged TDS figures.<\/span><\/div>\n<\/div>\n<div class=\"check-item\">\n<div class=\"check-num\">2<\/div>\n<div><b>What is the flow direction during molding?<\/b><span>Fiber orients in the flow, so stiffness, shrinkage and CLTE can differ along and across the flow.<\/span><\/div>\n<\/div>\n<div class=\"check-item\">\n<div class=\"check-num\">3<\/div>\n<div><b>Are there weld lines or inserts?<\/b><span>For impact, vibration and cyclic loading this is often more critical than the material&#8217;s maximum modulus.<\/span><\/div>\n<\/div>\n<div class=\"check-item\">\n<div class=\"check-num\">4<\/div>\n<div><b>Is an electrostatic profile required?<\/b><span>CF conductivity can be an advantage for antistatic parts, but a risk for insulating assemblies.<\/span><\/div>\n<\/div><\/div>\n<div class=\"check-note\"><b>Engineering conclusion:<\/b> the correct PA-CF choice is determined by the combination of matrix, reinforcement level, part anisotropy, gating system and service environment.<\/div>\n<\/p><\/div>\n<\/p><\/div>\n<\/p><\/div>\n<\/section>\n<section class=\"section\">\n<div class=\"wrap\">\n<div class=\"kicker\">02 \u00b7 CF30 \u2260 CF30<\/div>\n<h2 class=\"h2\">CF30 in the grade name: which parameters actually determine part performance<\/h2>\n<div class=\"grid3\">\n<div class=\"card tint\">\n<h3 class=\"h3\">Matrix<\/h3>\n<p class=\"text\">PA6, PA66, PA610 and PPA set different levels of heat resistance, moisture absorption, chemical resistance, creep and processability.<\/p>\n<\/div>\n<div class=\"card tint\">\n<h3 class=\"h3\">Interphase<\/h3>\n<p class=\"text\">Reinforcement efficiency depends on load transfer across the \u201cpolyamide\u2013CF\u201d interface. With insufficient adhesion, a high fiber content is not realized in the modulus, strength and service life of the part.<\/p>\n<\/div>\n<div class=\"card tint\">\n<h3 class=\"h3\">Residual fiber length<\/h3>\n<p class=\"text\">During compounding and molding the fiber is shortened. Excessive shear in the screw or in narrow channels can reduce reinforcement efficiency.<\/p>\n<\/div><\/div>\n<\/p><\/div>\n<\/section>\n<section class=\"section\" id=\"properties\">\n<div class=\"wrap\">\n<div class=\"kicker\">03 \u00b7 Properties<\/div>\n<h2 class=\"h2\">What carbon fiber actually changes in polyamide<\/h2>\n<p class=\"lead\">The key value of PA-CF lies in higher specific stiffness, lower thermal expansion, less deflection under load, tighter control of geometry and the ability to build an electrostatic or conductive profile within a polyamide matrix.<\/p>\n<div class=\"tablewrap\">\n<table>\n<thead>\n<tr>\n<th>Material \/ grade<\/th>\n<th>Reinforcement type<\/th>\n<th>Actual modulus for comparison<\/th>\n<th>Engineering meaning<\/th>\n<\/tr>\n<\/thead>\n<tbody>\n<tr>\n<td><b>Examid\u00ae PA6 GF30<\/b><\/td>\n<td>30% glass fiber<\/td>\n<td><b>8 800 MPa<\/b> \u00b7 flexural modulus<\/td>\n<td>The baseline glass-filled polyamide: good price, processability and sufficient stiffness for many housing parts.<\/td>\n<\/tr>\n<tr>\n<td><b>Examid\u00ae PA6 GF50 R10<\/b><\/td>\n<td>50% glass fiber<\/td>\n<td><b>~16 500 MPa<\/b> \u00b7 flexural modulus<\/td>\n<td>High stiffness on a PA6 base without switching to a CF system; rational when price and familiar processing matter more than minimal CLTE.<\/td>\n<\/tr>\n<tr>\n<td><b>Examid\u00ae PA6 GF20\/CF10<\/b><\/td>\n<td>20% GF + 10% CF<\/td>\n<td><b>12 000 MPa<\/b> \u00b7 flexural modulus<\/td>\n<td>A hybrid option: part of the CF advantage in geometry and stiffness with softer economics and better impact behavior.<\/td>\n<\/tr>\n<tr>\n<td><b>Examid\u00ae PA6 CF30<\/b><\/td>\n<td>30% carbon fiber<\/td>\n<td><b>17 000 MPa<\/b> \u00b7 flexural modulus<\/td>\n<td>The processing-friendly entry into PA-CF: high stiffness, low shrinkage, dark surface and a conductive profile, but higher demands on the mold and equipment.<\/td>\n<\/tr>\n<tr>\n<td><b>Examid\u00ae PA66 CF30 family<\/b><\/td>\n<td>30% carbon fiber<\/td>\n<td><b>17 500\u201318 800 MPa<\/b> \u00b7 flexural modulus<\/td>\n<td>The core structural zone for load-bearing molded parts where PA6 CF30 is no longer sufficient in heat resistance or stability.<\/td>\n<\/tr>\n<tr>\n<td><b>Examid\u00ae PA66 CF40 J6<\/b><\/td>\n<td>40% carbon fiber<\/td>\n<td><b>24 000 MPa<\/b> \u00b7 tensile modulus<\/td>\n<td>The top stiffness of PA66-CF in this line. Use it where deflection is more critical than impact ductility and processing simplicity.<\/td>\n<\/tr>\n<tr>\n<td><b>Examid\u00ae PA610 CF30<\/b><\/td>\n<td>30% carbon fiber<\/td>\n<td><b>20 000 MPa<\/b> \u00b7 flexural modulus<\/td>\n<td>CF stiffness with lower moisture drift than PA6\/PA66; useful for precision fits and parts operating near moisture.<\/td>\n<\/tr>\n<tr>\n<td><b>Examid\u00ae PPA CF33 \/ PA CF33 X<\/b><\/td>\n<td>33% carbon fiber<\/td>\n<td><b>20 800 MPa<\/b> \u00b7 flexural modulus<\/td>\n<td>A higher temperature and dimensional level: when PA6\/PA66 are already close to their limit in heat, moisture or geometric stability.<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<\/div>\n<div class=\"chart\" style=\"margin-top:28px\">\n<h3>Actual moduli of reinforced Examid\u00ae polyamides<\/h3>\n<div class=\"static-chart\" role=\"img\" aria-label=\"Comparison of moduli of reinforced Examid polyamides\">\n<div class=\"bar-row\">\n<div class=\"bar-label\">PA6 GF30<\/div>\n<div class=\"bar-track\">\n<div class=\"bar-fill\" style=\"width:37%\"><\/div>\n<\/div>\n<div class=\"bar-value\">8 800<\/div>\n<\/div>\n<div class=\"bar-row\">\n<div class=\"bar-label\">PA6 GF20\/CF10<\/div>\n<div class=\"bar-track\">\n<div class=\"bar-fill\" style=\"width:50%\"><\/div>\n<\/div>\n<div class=\"bar-value\">12 000<\/div>\n<\/div>\n<div class=\"bar-row\">\n<div class=\"bar-label\">PA6 GF50<\/div>\n<div class=\"bar-track\">\n<div class=\"bar-fill\" style=\"width:69%\"><\/div>\n<\/div>\n<div class=\"bar-value\">16 500<\/div>\n<\/div>\n<div class=\"bar-row\">\n<div class=\"bar-label\">PA6 CF30<\/div>\n<div class=\"bar-track\">\n<div class=\"bar-fill\" style=\"width:71%\"><\/div>\n<\/div>\n<div class=\"bar-value\">17 000<\/div>\n<\/div>\n<div class=\"bar-row\">\n<div class=\"bar-label\">PA66 CF30S<\/div>\n<div class=\"bar-track\">\n<div class=\"bar-fill\" style=\"width:78%\"><\/div>\n<\/div>\n<div class=\"bar-value\">18 800<\/div>\n<\/div>\n<div class=\"bar-row\">\n<div class=\"bar-label\">PA610 CF30<\/div>\n<div class=\"bar-track\">\n<div class=\"bar-fill\" style=\"width:83%\"><\/div>\n<\/div>\n<div class=\"bar-value\">20 000<\/div>\n<\/div>\n<div class=\"bar-row\">\n<div class=\"bar-label\">PPA CF33<\/div>\n<div class=\"bar-track\">\n<div class=\"bar-fill\" style=\"width:87%\"><\/div>\n<\/div>\n<div class=\"bar-value\">20 800<\/div>\n<\/div>\n<div class=\"bar-row\">\n<div class=\"bar-label\">PA66 CF40<\/div>\n<div class=\"bar-track\">\n<div class=\"bar-fill\" style=\"width:100%\"><\/div>\n<\/div>\n<div class=\"bar-value\">24 000*<\/div>\n<\/div><\/div>\n<div class=\"chart-axis\"><span>0<\/span><span>MPa<\/span><span>24 000<\/span><\/div>\n<p class=\"small\">\n<\/div><\/div>\n<\/section>\n<section class=\"section\" id=\"pacf-radar-section\">\n<div class=\"wrap\">\n<div class=\"kicker\">04 \u00b7 Interactive comparison<\/div>\n<h2 class=\"h2\">PA6 CF30 versus PA6 GF30 and other reinforced polyamides: where carbon fiber delivers an engineering advantage<\/h2>\n<p class=\"lead\">This block does not show \u201cthe best material overall\u201d. It compares glass-filled, hybrid and carbon-fiber-filled polyamides by task profile: deflection, mass, dimensional accuracy, moisture, heat, impact, wear, molding and economics. The starting comparison shows PA6 CF30 versus PA6 GF30, and a third material can be added manually.<\/p>\n<div class=\"pacf-radar\" id=\"pacf-radar-widget\">\n<div class=\"pacf-radar-controls\">\n<div class=\"pacf-radar-field\"><label for=\"pacf-radar-1\">Material 1<\/label><select id=\"pacf-radar-1\" onchange=\"window.pacfRadarRender &#038;&#038; window.pacfRadarRender()\"><option value=\"pa6cf30\" selected>PA6 CF30<\/option><option value=\"pa6gf30\">PA6 GF30<\/option><option value=\"pa6gf50\">PA6 GF50<\/option><option value=\"pa6gf20cf10\">PA6 GF20\/CF10<\/option><option value=\"pa66cf20\">PA66 CF20<\/option><option value=\"pa66cf30\">PA66 CF30<\/option><option value=\"pa66cf40\">PA66 CF40<\/option><option value=\"pa610cf30\">PA610 CF30<\/option><option value=\"ppacf33\">PPA \/ PA CF33<\/option><\/select><\/div>\n<div class=\"pacf-radar-field\"><label for=\"pacf-radar-2\">Material 2<\/label><select id=\"pacf-radar-2\" onchange=\"window.pacfRadarRender &#038;&#038; window.pacfRadarRender()\"><option value=\"pa6cf30\">PA6 CF30<\/option><option value=\"pa6gf30\" selected>PA6 GF30<\/option><option value=\"pa6gf50\">PA6 GF50<\/option><option value=\"pa6gf20cf10\">PA6 GF20\/CF10<\/option><option value=\"pa66cf20\">PA66 CF20<\/option><option value=\"pa66cf30\">PA66 CF30<\/option><option value=\"pa66cf40\">PA66 CF40<\/option><option value=\"pa610cf30\">PA610 CF30<\/option><option value=\"ppacf33\">PPA \/ PA CF33<\/option><\/select><\/div>\n<div class=\"pacf-radar-field\"><label for=\"pacf-radar-3\">Material 3<\/label><select id=\"pacf-radar-3\" onchange=\"window.pacfRadarRender &#038;&#038; window.pacfRadarRender()\"><option value=\"\">\u2014 do not select a third material \u2014<\/option><option value=\"pa6cf30\">PA6 CF30<\/option><option value=\"pa6gf30\">PA6 GF30<\/option><option value=\"pa6gf50\">PA6 GF50<\/option><option value=\"pa6gf20cf10\">PA6 GF20\/CF10<\/option><option value=\"pa66cf20\">PA66 CF20<\/option><option value=\"pa66cf30\">PA66 CF30<\/option><option value=\"pa66cf40\">PA66 CF40<\/option><option value=\"pa610cf30\">PA610 CF30<\/option><option value=\"ppacf33\">PPA \/ PA CF33<\/option><\/select><\/div>\n<p>          <button class=\"pacf-radar-reset\" type=\"button\" onclick=\"window.pacfRadarReset &#038;&#038; window.pacfRadarReset()\">Reset<\/button>\n        <\/div>\n<div class=\"pacf-radar-chart-wrap\">\n<div class=\"pacf-radar-head\">\n<h3>Property radar<\/h3>\n<p><span>higher = stronger position<\/span><\/div>\n<p><svg class=\"pacf-radar-svg\" viewBox=\"0 0 820 600\" data-pacf-chart role=\"img\" aria-label=\"Radar comparison of reinforced polyamides\"><\/svg><\/p>\n<div class=\"pacf-radar-legend\" data-pacf-legend><\/div>\n<\/div>\n<div class=\"pacf-compare-table\" data-pacf-table aria-live=\"polite\"><\/div>\n<p class=\"pacf-radar-note\"><b>How to read the radar:<\/b> PA6 GF30 and PA6 GF50 are often more rational in price and processing. PA-CF is needed when lower deflection, stable geometry, low CLTE, mass reduction and stiffer part behavior are critical. PA610 CF30 and PPA \/ PA CF33 make sense when moisture, temperature or elevated dimensional-stability requirements are added on top of stiffness.<\/p>\n<\/p><\/div>\n<\/p><\/div>\n<\/section>\n<section class=\"section tds-menu\" id=\"tds-menu\">\n<div class=\"wrap\">\n<div class=\"kicker\">TDS \u00b7 quick download<\/div>\n<h2 class=\"h2\">A dedicated menu for downloading Examid\u00ae PA-CF technical data sheets<\/h2>\n<p class=\"lead\">This block is kept separate from the product range so that a process engineer or buyer can quickly get the required TDS.<\/p>\n<div class=\"tds-grid\">\n<div class=\"tds-card\"><b>Examid\u00ae PPA CF33 J<\/b><span>PPA CF33 \u00b7 high-temperature semi-aromatic matrix<\/span><small>20,8 GPa flexural modulus \u00b7 HDT 180\u00b0C<\/small><a href=\"https:\/\/materialwizard.com.ua\/wp-content\/uploads\/2026\/05\/Examid\u00ae-PPA-CF33-J-1.pdf\" target=\"_blank\" rel=\"noopener\" download>Download TDS<\/a><\/div>\n<div class=\"tds-card\"><b>Examid\u00ae PA CF33 X<\/b><span>PA66\/PPA blend CF33 \u00b7 stiffness + stability<\/span><small>20,8 GPa flexural modulus \u00b7 CTI 750 V<\/small><a href=\"https:\/\/materialwizard.com.ua\/wp-content\/uploads\/2026\/05\/Examid\u00ae-PA-CF33X-2-1.pdf\" target=\"_blank\" rel=\"noopener\" download>Download TDS<\/a><\/div>\n<div class=\"tds-card\"><b>Examid\u00ae PA612 CF40-T588<\/b><span>PA612 CF40 \u00b7 minimal moisture drift<\/span><small>15 GPa flexural modulus \u00b7 HDT 185\u00b0C<\/small><a href=\"https:\/\/mail.google.com\/mail\/?view=cm&#038;fs=1&#038;to=info%40materialwizard.com.ua&#038;su=%D0%97%D0%B0%D0%BF%D0%B8%D1%82%20TDS%20Examid%C2%AE%20PA612%20CF40-T588\" target=\"_blank\" rel=\"noopener\">Request TDS<\/a><\/div>\n<div class=\"tds-card\"><b>Examid\u00ae PA610 CF30<\/b><span>PA610 CF30 \u00b7 low moisture absorption<\/span><small>20 GPa flexural modulus \u00b7 HDT 215\u00b0C<\/small><a href=\"https:\/\/materialwizard.com.ua\/wp-content\/uploads\/2026\/05\/Examid\u00ae-PA610-CF30-1.pdf\" target=\"_blank\" rel=\"noopener\" download>Download TDS<\/a><\/div>\n<div class=\"tds-card\"><b>Examid\u00ae PA66 CF40 J6<\/b><span>PA66 CF40 \u00b7 maximum PA66 stiffness<\/span><small>24 GPa tensile modulus \u00b7 260 MPa tensile<\/small><a href=\"https:\/\/materialwizard.com.ua\/wp-content\/uploads\/2026\/05\/Examid\u00ae-PA66-CF40-J6-2-1.pdf\" target=\"_blank\" rel=\"noopener\" download>Download TDS<\/a><\/div>\n<div class=\"tds-card\"><b>Examid\u00ae PA66 CF30W<\/b><span>PA66 CF30 \u00b7 thermal structural-grade<\/span><small>17,5 GPa flexural modulus \u00b7 HDT 182\u00b0C<\/small><a href=\"https:\/\/materialwizard.com.ua\/wp-content\/uploads\/2026\/05\/Examid\u00ae-PA66-CF30W-1.pdf\" target=\"_blank\" rel=\"noopener\" download>Download TDS<\/a><\/div>\n<div class=\"tds-card\"><b>Examid\u00ae PA66 CF30Y<\/b><span>PA66 CF30 \u00b7 HDT \/ load-bearing parts<\/span><small>18,2 GPa flexural modulus \u00b7 HDT 230\u00b0C<\/small><a href=\"https:\/\/materialwizard.com.ua\/wp-content\/uploads\/2026\/05\/Examid\u00ae-PA66-CF30Y-1-1.pdf\" target=\"_blank\" rel=\"noopener\" download>Download TDS<\/a><\/div>\n<div class=\"tds-card\"><b>Examid\u00ae PA66 CF30S<\/b><span>PA66 CF30 \u00b7 precision ESD components<\/span><small>18,8 GPa flexural modulus \u00b7 HDT 250\u00b0C<\/small><a href=\"https:\/\/materialwizard.com.ua\/wp-content\/uploads\/2026\/05\/Examid\u00ae-PA66-CF30S-1.pdf\" target=\"_blank\" rel=\"noopener\" download>Download TDS<\/a><\/div>\n<div class=\"tds-card\"><b>Examid\u00ae PA66 CF30J<\/b><span>PA66 CF30 \u00b7 universal structural-grade<\/span><small>18,2 GPa flexural modulus \u00b7 HDT 230\u00b0C<\/small><a href=\"https:\/\/materialwizard.com.ua\/wp-content\/uploads\/2026\/05\/Examid\u00ae-PA66-CF30J-1.pdf\" target=\"_blank\" rel=\"noopener\" download>Download TDS<\/a><\/div>\n<div class=\"tds-card\"><b>Examid\u00ae PA6 CF30<\/b><span>PA6 CF30 \u00b7 processing-friendly CF compound<\/span><small>17 GPa flexural modulus \u00b7 electrically conductive<\/small><a href=\"https:\/\/materialwizard.com.ua\/wp-content\/uploads\/2026\/05\/Examid\u00ae-PA6-CF30-1.pdf\" target=\"_blank\" rel=\"noopener\" download>Download TDS<\/a><\/div>\n<div class=\"tds-card\"><b>Examid\u00ae PA6 GF20\/CF10<\/b><span>PA6 hybrid \u00b7 GF20 + CF10<\/span><small>12 GPa flexural modulus \u00b7 80 kJ\/m\u00b2 Charpy unnotched<\/small><a href=\"https:\/\/materialwizard.com.ua\/wp-content\/uploads\/2026\/05\/Examid\u00ae-PA6-GF20_CF10-2.pdf\" target=\"_blank\" rel=\"noopener\" download>Download TDS<\/a><\/div>\n<div class=\"tds-card\"><b>Examid\u00ae PA66 CF20<\/b><span>PA66 CF20 \u00b7 moderate CF reinforcement for stiff technical parts<\/span><small>lower CF content compared to CF30\/CF40 \u00b7 structural PA66<\/small><a href=\"https:\/\/materialwizard.com.ua\/wp-content\/uploads\/2026\/05\/Examid\u00ae-PA66-CF20.pdf\" target=\"_blank\" rel=\"noopener\" download>Download TDS<\/a><\/div>\n<\/p><\/div>\n<\/div>\n<\/section>\n<section class=\"section\" id=\"grades\">\n<div class=\"wrap\">\n<div class=\"kicker\">05 \u00b7 Examid\u00ae PA-CF range<\/div>\n<h2 class=\"h2\">The Examid\u00ae PA-CF range: matrix, reinforcement level, heat resistance, moisture risk and electrostatic profile<\/h2>\n<p class=\"lead\">The Examid\u00ae PA-CF range should be viewed through the matrix, reinforcement level, modulus, moisture sensitivity, electrostatic profile and processing constraints. This makes it clear which task each grade addresses.<\/p>\n<div class=\"product-grid\">\n<div class=\"product\">\n<h3>Examid\u00ae PPA CF33 J<\/h3>\n<p><span class=\"badge\">PPA \/ CF33<\/span><\/p>\n<p>A semi-aromatic high-temperature platform for structural parts that require high modulus, thermal-cycling resistance, lower moisture drift and predictable mechanical behavior. Per TDS: 33% CF, density 1.29 g\/cm\u00b3, flexural modulus 20 800 MPa, tensile modulus 24 000 MPa, HDT 180\u00b0C at 1.8 MPa.<\/p>\n<div class=\"mini\"><span class=\"pill green\">PPA level<\/span><span class=\"pill green\">20.8 GPa flex<\/span><span class=\"pill green\">low water absorption<\/span><span class=\"pill green\">UAV \/ aerospace<\/span><\/div>\n<div class=\"product-actions\"><a href=\"https:\/\/materialwizard.com.ua\/poliftalamid-examid-ppa-cf33\/\" target=\"_blank\">Open grade \u2192<\/a><a class=\"tds\" href=\"https:\/\/materialwizard.com.ua\/wp-content\/uploads\/2026\/05\/Examid\u00ae-PPA-CF33-J-1.pdf\" target=\"_blank\" rel=\"noopener\" download>TDS<\/a><\/div>\n<\/div>\n<div class=\"product\">\n<h3>Examid\u00ae PA CF33 X<\/h3>\n<p><span class=\"badge\">PA\/PPA blend \/ CF33<\/span><\/p>\n<p>A blend of PA66 and semi-aromatic PPA for parts that need higher stability than typical PA66 CF, with more controlled economics compared to a full PPA level. Technically close to high-stiffness CF33 solutions.<\/p>\n<div class=\"mini\"><span class=\"pill green\">PA66+PPA<\/span><span class=\"pill green\">CTI 750 V<\/span><span class=\"pill green\">thermal cycling<\/span><span class=\"pill green\">rigid housings<\/span><\/div>\n<div class=\"product-actions\"><a href=\"https:\/\/materialwizard.com.ua\/polyamides\/pa-cf\/\" target=\"_blank\">PA-CF category \u2192<\/a><a class=\"tds\" href=\"https:\/\/materialwizard.com.ua\/wp-content\/uploads\/2026\/05\/Examid\u00ae-PA-CF33X-2-1.pdf\" target=\"_blank\" rel=\"noopener\" download>TDS<\/a><\/div>\n<\/div>\n<div class=\"product\">\n<h3>Examid\u00ae PA612 CF40-T588<\/h3>\n<p><span class=\"badge\">PA612 \/ CF40<\/span><\/p>\n<p>A low-moisture PA612 platform with 40% Torayca\u00ae M60J for parts where water absorption and the associated dimensional drift are unacceptable. Focused on modulus and geometry stability in humid, cyclic or long-term service regimes.<\/p>\n<div class=\"mini\"><span class=\"pill green\">PA612<\/span><span class=\"pill green\">Torayca\u00ae M60J<\/span><span class=\"pill green\">low water absorption<\/span><span class=\"pill green\">tight tolerances<\/span><\/div>\n<div class=\"product-actions\"><a href=\"https:\/\/materialwizard.com.ua\/polyamides\/pa-cf\/\" target=\"_blank\">PA-CF category \u2192<\/a><a class=\"tds\" href=\"https:\/\/mail.google.com\/mail\/?view=cm&#038;fs=1&#038;to=info%40materialwizard.com.ua&#038;su=%D0%97%D0%B0%D0%BF%D0%B8%D1%82%20TDS%20Examid%C2%AE%20PA612%20CF40-T588\" target=\"_blank\" rel=\"noopener\">Request TDS<\/a><\/div>\n<\/div>\n<div class=\"product\">\n<h3>Examid\u00ae PA610 CF30<\/h3>\n<p><span class=\"badge\">PA610 \/ CF30<\/span><\/p>\n<p>A grade for precision parts that need CF30-level stiffness where the water absorption of PA6\/PA66 creates a fit-drift risk. Per TDS: density 1.28 g\/cm\u00b3, flexural modulus 20 000 MPa, flexural strength 280 MPa, HDT 215\u00b0C at 1.8 MPa.<\/p>\n<div class=\"mini\"><span class=\"pill green\">low moisture risk<\/span><span class=\"pill green\">20 GPa flex<\/span><span class=\"pill green\">HDT 215\u00b0C<\/span><span class=\"pill green\">geometric accuracy<\/span><\/div>\n<div class=\"product-actions\"><a href=\"https:\/\/materialwizard.com.ua\/examid-pa610-cf30\/\" target=\"_blank\">Open grade \u2192<\/a><a class=\"tds\" href=\"https:\/\/materialwizard.com.ua\/wp-content\/uploads\/2026\/05\/Examid\u00ae-PA610-CF30-1.pdf\" target=\"_blank\" rel=\"noopener\" download>TDS<\/a><\/div>\n<\/div>\n<div class=\"product\">\n<h3>Examid\u00ae PA66 CF40 J6<\/h3>\n<p><span class=\"badge\">PA66 \/ CF40<\/span><\/p>\n<p>A high-stiffness PA66 CF level for structural parts, brackets, housings and metal replacement where deflection is more critical than impact ductility. Per TDS: 40% CF, density 1.31 g\/cm\u00b3, tensile modulus 24 000 MPa, tensile strength 260 MPa.<\/p>\n<div class=\"mini\"><span class=\"pill orange\">CF40<\/span><span class=\"pill orange\">24 GPa tensile modulus<\/span><span class=\"pill orange\">low CLTE<\/span><span class=\"pill orange\">static stiffness<\/span><\/div>\n<div class=\"product-actions\"><a href=\"https:\/\/materialwizard.com.ua\/examid-pa66-cf40\/\" target=\"_blank\">Open grade \u2192<\/a><a class=\"tds\" href=\"https:\/\/materialwizard.com.ua\/wp-content\/uploads\/2026\/05\/Examid\u00ae-PA66-CF40-J6-2-1.pdf\" target=\"_blank\" rel=\"noopener\" download>TDS<\/a><\/div>\n<\/div>\n<div class=\"product\">\n<h3>Examid\u00ae PA66 CF30 family<\/h3>\n<p><span class=\"badge\">PA66 \/ CF30<\/span><\/p>\n<p>The core PA66 CF30 family for load-bearing molded parts. The CF30W, CF30Y, CF30S and CF30J variants are differentiated by heat resistance, flowability, modulus level and behavior in series production. Within the TDS: flexural modulus 17 500\u201318 800 MPa, HDT 182\u2013250\u00b0C, tensile strength up to 280 MPa.<\/p>\n<div class=\"mini\"><span class=\"pill green\">baseline metal replacement<\/span><span class=\"pill green\">ESD<\/span><span class=\"pill green\">182\u2013250\u00b0C HDT<\/span><span class=\"pill green\">series parts<\/span><\/div>\n<div class=\"product-actions\"><a href=\"https:\/\/materialwizard.com.ua\/examid-pa66-cf30\/\" target=\"_blank\">Open grade \u2192<\/a><a class=\"tds\" href=\"https:\/\/materialwizard.com.ua\/wp-content\/uploads\/2026\/05\/Examid\u00ae-PA66-CF30W-1.pdf\" target=\"_blank\" rel=\"noopener\" download>TDS W<\/a><a class=\"tds\" href=\"https:\/\/materialwizard.com.ua\/wp-content\/uploads\/2026\/05\/Examid\u00ae-PA66-CF30Y-1-1.pdf\" target=\"_blank\" rel=\"noopener\" download>TDS Y<\/a><a class=\"tds\" href=\"https:\/\/materialwizard.com.ua\/wp-content\/uploads\/2026\/05\/Examid\u00ae-PA66-CF30S-1.pdf\" target=\"_blank\" rel=\"noopener\" download>TDS S<\/a><a class=\"tds\" href=\"https:\/\/materialwizard.com.ua\/wp-content\/uploads\/2026\/05\/Examid\u00ae-PA66-CF30J-1.pdf\" target=\"_blank\" rel=\"noopener\" download>TDS J<\/a><\/div>\n<\/div>\n<div class=\"product\">\n<h3>Examid\u00ae PA66 CF20<\/h3>\n<p><span class=\"badge\">PA66 \/ CF20<\/span><\/p>\n<p>A PA66 variant with 20% carbon fiber for parts that need increased stiffness, an electrostatic profile or lower CLTE, where CF30\/CF40 may be excessive in cost, abrasiveness or brittleness.<\/p>\n<div class=\"mini\"><span class=\"pill green\">CF20<\/span><span class=\"pill green\">PA66 matrix<\/span><span class=\"pill green\">electrostatic profile<\/span><span class=\"pill green\">lower abrasiveness<\/span><\/div>\n<div class=\"product-actions\"><a href=\"https:\/\/materialwizard.com.ua\/polyamides\/pa-cf\/\" target=\"_blank\">PA-CF category \u2192<\/a><a class=\"tds\" href=\"https:\/\/materialwizard.com.ua\/wp-content\/uploads\/2026\/05\/Examid\u00ae-PA66-CF20.pdf\" target=\"_blank\" rel=\"noopener\" download>TDS<\/a><\/div>\n<\/div>\n<div class=\"product\">\n<h3>Examid\u00ae PA6 CF30<\/h3>\n<p><span class=\"badge\">PA6 \/ CF30<\/span><\/p>\n<p>A processing-friendly PA-CF compound for series molding of rigid parts when the moisture-stability and heat-resistance requirements do not push the project into the PA610 or PPA zone. Per TDS: 30% CF, density 1.30 g\/cm\u00b3, MVR 30 cm\u00b3\/10 min, flexural modulus 17 000 MPa.<\/p>\n<div class=\"mini\"><span class=\"pill green\">PA6<\/span><span class=\"pill green\">17 GPa flex<\/span><span class=\"pill green\">good flowability<\/span><span class=\"pill green\">electrically conductive<\/span><\/div>\n<div class=\"product-actions\"><a href=\"https:\/\/materialwizard.com.ua\/examid-pa6-cf30\/\" target=\"_blank\">Open grade \u2192<\/a><a class=\"tds\" href=\"https:\/\/materialwizard.com.ua\/wp-content\/uploads\/2026\/05\/Examid\u00ae-PA6-CF30-1.pdf\" target=\"_blank\" rel=\"noopener\" download>TDS<\/a><\/div>\n<\/div>\n<div class=\"product\">\n<h3>Examid\u00ae PA6 GF20\/CF10<\/h3>\n<p><span class=\"badge\">PA6 \/ GF20+CF10<\/span><\/p>\n<p>A hybrid composite for parts that need a combination of structural stiffness, impact endurance and a more moderate cost compared to pure CF systems. The glass fiber provides the load-bearing stiffness, while the CF adjusts CLTE and reinforces geometric stability.<\/p>\n<div class=\"mini\"><span class=\"pill orange\">GF\/CF hybrid<\/span><span class=\"pill orange\">80 kJ\/m\u00b2 unnotched<\/span><span class=\"pill orange\">cold impact<\/span><span class=\"pill orange\">price\/modulus<\/span><\/div>\n<div class=\"product-actions\"><a href=\"https:\/\/materialwizard.com.ua\/examid-pa6-gf20cf10\/\" target=\"_blank\">Open grade \u2192<\/a><a class=\"tds\" href=\"https:\/\/materialwizard.com.ua\/wp-content\/uploads\/2026\/05\/Examid\u00ae-PA6-GF20_CF10-2.pdf\" target=\"_blank\" rel=\"noopener\" download>TDS<\/a><\/div>\n<\/div><\/div>\n<\/div>\n<\/section>\n<section class=\"section\" id=\"matrix\">\n<div class=\"wrap\">\n<div class=\"kicker\">06 \u00b7 Selection map<\/div>\n<h2 class=\"h2\">PA-CF selection starts with part function, load mode and permissible geometry drift<\/h2>\n<p class=\"lead\">Excessive modulus can degrade impact endurance, complicate mold filling, increase anisotropy and raise cost without a corresponding design benefit.<\/p>\n<div class=\"matrix\">\n<div class=\"grade\"><strong>PA6 CF<\/strong><\/p>\n<p class=\"text\">The baseline structural zone: stiffness, processability, more accessible economics.<\/p>\n<p><span class=\"pill\">moderate temperature<\/span><span class=\"pill\">series molding<\/span><\/div>\n<div class=\"grade\"><strong>PA66 CF<\/strong><\/p>\n<p class=\"text\">The main zone for load-bearing parts: stiffness, heat resistance, ESD and metal replacement.<\/p>\n<p><span class=\"pill\">HDT<\/span><span class=\"pill\">ESD<\/span><span class=\"pill\">brackets<\/span><\/div>\n<div class=\"grade\"><strong>PA610 CF<\/strong><\/p>\n<p class=\"text\">When moisture and fit stability matter more than the lowest material price.<\/p>\n<p><span class=\"pill\">moisture<\/span><span class=\"pill\">precise clearances<\/span><\/div>\n<div class=\"grade\"><strong>PPA CF<\/strong><\/p>\n<p class=\"text\">The high-temperature level for assemblies where PA66 is already close to its limit.<\/p>\n<p><span class=\"pill\">high temperature<\/span><span class=\"pill\">stability<\/span><\/div>\n<\/div>\n<\/div>\n<\/section>\n<section class=\"section\" id=\"applications\">\n<div class=\"wrap\">\n<div class=\"kicker\">07 \u00b7 Applications<\/div>\n<h2 class=\"h2\">PA-CF applications by part function<\/h2>\n<p class=\"lead\">PA-CF is most compelling in parts where modulus, weight, clearance stability, elevated-temperature operation, low CLTE or electrostatic-charge control are critical at the same time.<\/p>\n<div class=\"grid3\">\n<div class=\"card\">\n<h3 class=\"h3\">Brackets and supports<\/h3>\n<p class=\"text\">Load-bearing housings, sensor holders, mounting elements, functional covers.<\/p>\n<\/div>\n<div class=\"card\">\n<h3 class=\"h3\">Precision technical components<\/h3>\n<p class=\"text\">Parts with stable clearance, low CLTE and repeatable geometry.<\/p>\n<\/div>\n<div class=\"card\">\n<h3 class=\"h3\">Dimensional accuracy and electrical engineering<\/h3>\n<p class=\"text\">Housings, guides, fasteners and components adjacent to electronics.<\/p>\n<\/div>\n<div class=\"card\">\n<h3 class=\"h3\">A polymer alternative to metal<\/h3>\n<p class=\"text\">An alternative to aluminum or zinc die casting when stiffness at low weight is required.<\/p>\n<\/div>\n<div class=\"card\">\n<h3 class=\"h3\">UAV \/ robotics<\/h3>\n<p class=\"text\">Frames, brackets, holders and lightweight rigid elements with impact and vibration verification.<\/p>\n<\/div>\n<div class=\"card\">\n<h3 class=\"h3\">Measurement systems<\/h3>\n<p class=\"text\">Components where shape stability under temperature, load and cycling is essential.<\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/section>\n<section class=\"section\" id=\"risks\">\n<div class=\"wrap\">\n<div class=\"kicker\">08 \u00b7 Limitations<\/div>\n<h2 class=\"h2\">PA-CF limitations to account for before mold launch<\/h2>\n<p class=\"lead\">PA-CF cannot be dropped into a design automatically in place of PA-GF, POM, PBT, PPA or metal. Higher modulus, conductivity and anisotropy change how the part behaves and raise the requirements for geometry, the molding process and tooling condition.<\/p>\n<div class=\"riskgrid\">\n<div class=\"risk\"><b>Impact and stress concentrators<\/b><\/p>\n<p class=\"text\">Sharp corners, thin webs, holes without radii and abrupt cross-section transitions require special attention.<\/p>\n<\/div>\n<div class=\"risk\"><b>Post-molding anisotropy<\/b><\/p>\n<p class=\"text\">Properties along and across the flow can differ substantially. This must be built into the geometry.<\/p>\n<\/div>\n<div class=\"risk\"><b>Equipment wear<\/b><\/p>\n<p class=\"text\">CF is abrasive. The condition of the screw, barrel, nozzle, hot runner and mold is important.<\/p>\n<\/div>\n<div class=\"risk\"><b>Conductivity as a risk<\/b><\/p>\n<p class=\"text\">CF conductivity can be an advantage in antistatic parts, but in insulating assemblies it creates unwanted conductive paths.<\/p>\n<\/div>\n<div class=\"risk\"><b>Galvanic corrosion<\/b><\/p>\n<p class=\"text\">CF compounds can be undesirable next to certain metals in humid or electrochemically active environments.<\/p>\n<\/div>\n<div class=\"risk\"><b>Color and surface<\/b><\/p>\n<p class=\"text\">PA-CF is almost always black or dark. A light-colored decorative part is a weak scenario for CF.<\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/section>\n<section class=\"section\" id=\"processing\">\n<div class=\"wrap\">\n<div class=\"kicker\">09 \u00b7 Processing<\/div>\n<h2 class=\"h2\">PA-CF processing: drying, shear, fiber orientation and series stability<\/h2>\n<p class=\"lead\">PA-CF start-up problems are usually linked to pellet moisture, excessive shear, an incorrect gating scheme, excessive residence time and anisotropic shrinkage. For carbon-fiber-filled polyamide composites, the molding regime directly shapes the properties of the finished part.<\/p>\n<div class=\"grid2\">\n<div>\n<p class=\"text\">The matrix remains a polyamide, so moisture control is mandatory even for rigid carbon-fiber-filled grades. Moisture degrades the surface, provokes silver streaks, reduces the repeatability of mechanical properties and makes the process less stable.<\/p>\n<p class=\"text\">The second critical topic is preserving the effective fiber length. Excessive screw speed, narrow channels, unnecessary back pressure or a long residence time can shorten the fiber and reduce the real stiffness of the part.<\/p>\n<p class=\"text\">The third factor is flow direction. Maximum modulus values and minimum CLTE typically develop along the prevailing fiber orientation.<\/p>\n<\/div>\n<div class=\"card warn\">\n<h3 class=\"h3\">Practical takeaway<\/h3>\n<p class=\"text\">The temperature profile from the TDS is only a starting point. You need to stabilize pellet moisture, limit fiber breakage during plasticization, orient the flow relative to the critical load and verify the part after conditioning, thermal cycling or an assembly-level test.<\/p>\n<p><span class=\"pill\">drying<\/span><span class=\"pill\">dew point<\/span><span class=\"pill\">shear<\/span><span class=\"pill\">gate<\/span><span class=\"pill\">weld line<\/span><span class=\"pill\">CLTE<\/span><span class=\"pill\">warpage<\/span><span class=\"pill\">screw wear<\/span><\/p>\n<\/div>\n<\/div>\n<div class=\"process-steps\">\n<div class=\"process-step\"><b>Drying<\/b><\/p>\n<p>For precision parts, monitor the actual pellet moisture or work with a desiccant dryer.<\/p>\n<\/div>\n<div class=\"process-step\"><b>Plasticization<\/b><\/p>\n<p>The goal is a stable melt without unnecessary fiber breakage.<\/p>\n<\/div>\n<div class=\"process-step\"><b>Filling<\/b><\/p>\n<p>A controlled, fast flow front is required, without overheating or weak weld lines.<\/p>\n<\/div>\n<div class=\"process-step\"><b>Holding<\/b><\/p>\n<p>Hold pressure \/ hold time parameters are adjusted to compensate for volumetric shrinkage.<\/p>\n<\/div>\n<\/div>\n<div class=\"processing-map\">\n<div class=\"proc-card\"><b>PA6 CF30<\/b><\/p>\n<p>Barrel guideline: 220\u2013280\u00b0C. Drying: 100\u00b0C \/ 2 h, moisture &lt;0.2%.<\/p>\n<\/div>\n<div class=\"proc-card\"><b>PA6 GF20\/CF10<\/b><\/p>\n<p>Barrel guideline: 240\u2013290\u00b0C. Drying: 4\u20136 h at &lt;80\u00b0C for opened bags.<\/p>\n<\/div>\n<div class=\"proc-card\"><b>PA66 CF30 \/ CF40<\/b><\/p>\n<p>Typical range: 250\u2013310\u00b0C depending on the grade. For CF40: mold 80\u201395\u00b0C.<\/p>\n<\/div>\n<div class=\"proc-card\"><b>PA610 CF30<\/b><\/p>\n<p>High-temperature processing: 290\u2013310\u00b0C. Drying: 130\u00b0C \/ 4 h, moisture &lt;0.2%.<\/p>\n<\/div>\n<div class=\"proc-card\"><b>PA612 CF40-T588<\/b><\/p>\n<p>Guideline: 220\u2013260\u00b0C, mold 60\u201380\u00b0C, pressure 80\u2013130 MPa. Drying: 80\u201385\u00b0C down to 0.01% moisture.<\/p>\n<\/div>\n<div class=\"proc-card\"><b>PPA \/ PA CF33<\/b><\/p>\n<p>Guideline: 300\u2013325\u00b0C. Drying is critical: 80\u2013100\u00b0C, 2\u20134 h, dew point \u2264 \u221240\u00b0C.<\/p>\n<\/div>\n<div class=\"proc-card\"><b>Tooling wear<\/b><\/p>\n<p>CF is abrasive: wear-resistant screws, nozzles and hot runners are preferred, along with monitoring of the plasticizing unit condition.<\/p>\n<\/div>\n<div class=\"proc-card\"><b>Regrind processing<\/b><\/p>\n<p>Some grades allow up to 25% regrind, but the real limit depends on matrix degradation and fiber shortening.<\/p>\n<\/div>\n<\/div>\n<div class=\"note-box\"><b>What to check on the first production run:<\/b> part weight, warpage after cooling, dimensional stability after conditioning, strength in the weld-line zones, surface quality, electrical resistance for ESD grades and wear of the plasticizing unit.<\/div>\n<\/div>\n<\/section>\n<section class=\"section\" id=\"expertise\">\n<div class=\"wrap\">\n<div class=\"kicker\">10 \u00b7 Material Wizard expertise<\/div>\n<h2 class=\"h2\">Material Wizard selects PA-CF based on assembly geometry, environment and the processing route<\/h2>\n<p class=\"lead\">In PA-CF projects, comparing TDS documents is only the starting point. A standard specimen demonstrates the potential of the compound, but it does not show the behavior of the specific part with its anisotropy, weld lines, inserts, wall thickness, temperature, moisture and load type.<\/p>\n<div class=\"expert-flow\">\n<div class=\"expert-step\"><b>1. Part<\/b>geometry, thickness, ribs, fits<\/div>\n<div class=\"expert-step\"><b>2. Load<\/b>deflection, impact, vibration, creep<\/div>\n<div class=\"expert-step\"><b>3. Environment<\/b>moisture, temperature, chemicals, metal<\/div>\n<div class=\"expert-step\"><b>4. Matrix<\/b>PA6 \/ PA66 \/ PA610 \/ PPA<\/div>\n<div class=\"expert-step\"><b>5. Reinforcement<\/b>CF20 \/ CF30 \/ CF40 \/ hybrid<\/div>\n<div class=\"expert-step\"><b>6. Processing<\/b>drying, shear, gate, orientation<\/div>\n<div class=\"expert-step\"><b>7. Recommendation<\/b>grade + risks + tests<\/div>\n<\/div>\n<\/div>\n<\/section>\n<section class=\"section\">\n<div class=\"wrap faq\">\n<div class=\"kicker\">11 \u00b7 FAQ<\/div>\n<h2 class=\"h2\">Technical questions before launching PA-CF<\/h2>\n<details open>\n<summary>When is PA-CF a better choice than PA-GF?<\/summary>\n<p>PA-CF makes more sense for specific-stiffness tasks, low CLTE and dimensional accuracy. PA-GF often remains the more rational choice for impact-loaded parts, a wider processing window, lower abrasiveness to tooling and better economics.<\/p>\n<\/details>\n<details>\n<summary>When can PA-CF replace aluminum?<\/summary>\n<p>Yes, if the function of the part is defined by stiffness at low weight, geometric stability and acceptable creep. If plastic deformation, thermal conductivity, the thread endurance of metal or very high operating temperatures are critical, a direct replacement requires separate validation.<\/p>\n<\/details>\n<details>\n<summary>Why can PA-CF warp despite low shrinkage?<\/summary>\n<p>The key factor is not the absolute shrinkage value but the difference along and across the flow. High fiber orientation can produce anisotropic shrinkage and local warpage.<\/p>\n<\/details>\n<details>\n<summary>Does PA-CF require drying?<\/summary>\n<p>Yes. The matrix remains a polyamide, so moisture control before molding is critical for the surface, mechanical repeatability, process stability and defect reduction.<\/p>\n<\/details>\n<\/div>\n<\/section>\n<section class=\"section\">\n<div class=\"wrap\">\n<div class=\"cta\">\n<h2 class=\"h2\">Need a PA-CF grade for a specific part?<\/h2>\n<p>Send us the geometry, load mode, temperature, environment, dimensional-accuracy requirements and weight-reduction or metal-replacement targets. We will propose a starting Examid\u00ae PA-CF grade, flag the critical failure modes and outline the list of validation tests before series launch.<\/p>\n<div class=\"cta-actions\"><a class=\"btn primary\" href=\"tel:+380503232321\">\u260e Call us<\/a><a class=\"btn orange\" href=\"#tds-menu\">Get TDS<\/a><a class=\"btn ghost\" href=\"https:\/\/mail.google.com\/mail\/?view=cm&#038;fs=1&#038;to=info%40materialwizard.com.ua&#038;su=%D0%97%D0%B0%D0%BF%D0%B8%D1%82%20Examid%C2%AE%20PA-CF\" target=\"_blank\" rel=\"noopener\">Send an inquiry<\/a><\/div>\n<\/div>\n<\/div>\n<\/section>\n<\/div>\n<div class=\"float-actions\" aria-label=\"Quick actions\"><a class=\"phone\" href=\"tel:+380503232321\" title=\"Call us\">\u260e<\/a><a class=\"mail\" href=\"https:\/\/mail.google.com\/mail\/?view=cm&#038;fs=1&#038;to=info%40materialwizard.com.ua&#038;su=%D0%97%D0%B0%D0%BF%D0%B8%D1%82%20Examid%C2%AE%20PA-CF\" target=\"_blank\" rel=\"noopener\" title=\"Send an inquiry\">\u2709<\/a><a href=\"#tds-menu\" title=\"Get TDS\">T<\/a><button onclick=\"document.getElementById('pacf-top').scrollIntoView({behavior:'smooth',block:'start'})\" title=\"Back to the top of the landing page\">\u2191<\/button><\/div>\n<p><script>\n(function(){\n  var AXES=[{short:'Stiffness',full:'Part stiffness',note:'How much the material helps the part bend less with the same geometry.'},{short:'Weight',full:'Lightweight design',note:'Weight-reduction potential while maintaining part stiffness.'},{short:'Dimensions',full:'Dimensional accuracy',note:'Geometry stability after molding and in service: shrinkage, CLTE, clearances, warpage.'},{short:'Moisture',full:'Stability in moisture',note:'Retention of dimensions and modulus after contact with moisture.'},{short:'Heat',full:'Performance under heat',note:'Heat resistance, HDT and stiffness retention at elevated temperature.'},{short:'Impact',full:'Impact reliability',note:'Risk of brittleness, notch sensitivity and failure on impact. For CF this must be verified separately.'},{short:'Wear',full:'Part wear resistance',note:'Resistance of the working surface to wear in guides, fits and contact zones.'},{short:'Molding',full:'Ease of molding',note:'Flowability, mold filling, drying, weld-line risk and abrasiveness to equipment.'},{short:'Price',full:'Cost accessibility',note:'The higher the score, the easier it is to justify the material on cost.'}];\n  var MATERIALS={\n    pa6cf30:{name:'PA6 CF30',color:'#0e8c8f',values:[4,4,4,2,3,3,4,3.5,3],desc:['High modulus for a PA6 matrix and less deflection compared to PA6 GF30.','Good weight-reduction potential versus heavier GF solutions.','Low shrinkage and better CLTE than PA6 GF30\/GF50.','PA6 remains moisture-sensitive even with CF reinforcement.','Does not replace PA66\/PPA in hot regimes.','CF requires verification of impact, notches and weld lines.','Good durability of contact surfaces.','Requires careful drying, shear control and tooling-wear monitoring.','More expensive than GF, but more affordable than PA610\/PPA CF.']},\n    pa6gf30:{name:'PA6 GF30',color:'#1d756f',values:[3,3,3,2,3,4,3,5,5],desc:['The baseline level: stiff enough for many housings and brackets.','Density is higher than unfilled PA6, but the economics are good.','Adequate stability for a GF compound, but CLTE is higher than with CF.','PA6 is moisture-sensitive; fits must be checked after conditioning.','A workable engineering level, but not the PPA\/PA610 zone.','Often better than CF under impact, especially in parts with stress concentrators.','Moderate working-surface durability.','The simplest level for series molding.','The most affordable entry point among the compared solutions.']},\n    pa6gf50:{name:'PA6 GF50',color:'#6f7fdc',values:[4,3,3.5,2,3.5,3,3.5,4,4],desc:['Noticeably above GF30 in deflection resistance.','Part weight increases due to the high glass-fiber content.','Better than GF30 in shrinkage, but not CF-level CLTE.','Moisture remains a design factor for PA6.','Above GF30, but limited by the PA6 matrix.','Impact resistance is lower than GF30; radii and the absence of stress concentrators are important.','Better than GF30 in a number of contact zones.','More demanding than GF30, but usually simpler than CF40\/PPA.','More affordable than CF grades at high stiffness.']},\n    pa6gf20cf10:{name:'PA6 GF20\/CF10',color:'#bd7a2d',values:[3.5,3.5,3.5,2,3,4.5,3.5,4,4],desc:['The hybrid delivers a stiffness gain without moving to pure CF30.','A weight and price compromise between GF and CF.','The CF component helps the geometry, but the matrix remains PA6.','The PA6 moisture risk remains.','Thermally closer to PA6 GF than to PA66\/PPA.','The hybrid strength: a better balance of impact resistance and stiffness.','Moderate improvement of contact zones.','A good processing compromise.','More rational than pure CF30 for a moderate task.']},\n    pa66cf20:{name:'PA66 CF20',color:'#2f5f73',values:[4,3.8,4,2.5,3.8,3.2,4,3.4,3],desc:['The entry PA66-CF level: stiffer than GF30 but softer than CF30\/CF40.','A good weight-stiffness compromise without the maximum CF content.','Better than GF in CLTE and stability, but not the top of the CF range.','PA66 absorbs moisture, so fits are checked after conditioning.','Above PA6 GF in heat resistance, but below PA610\/PPA.','Lower brittleness risk than CF40, but impact still needs verification.','CF improves the behavior of contact zones.','Simpler than CF30\/CF40, but more abrasive than GF grades.','A compromise price between GF and the high CF grades.']},\n    pa66cf30:{name:'PA66 CF30',color:'#b33a3a',values:[4.5,4,4.5,2.5,4,3,4,3,2.5],desc:['The core load-bearing zone of PA-CF.','A good balance of stiffness and weight.','More stable than GF and PA6 CF in precision parts.','PA66 also absorbs moisture, although its profile is better than PA6.','Above PA6 in heat resistance.','Impact must be confirmed on the part geometry.','A good working surface in technical assemblies.','A more demanding process, higher abrasiveness.','Substantially more expensive than the GF level.']},\n    pa66cf40:{name:'PA66 CF40',color:'#111821',values:[5,4.5,5,2.5,4,2.5,4,2.5,2],desc:['Maximum stiffness of the PA66-CF level within this logic.','High modulus at comparatively low density.','A strong zone: low deflection, low CLTE, high repeatability with the right mold.','Moisture remains a limitation of the polyamide matrix.','A heat-resistant level, but not PPA.','The riskiest zone for brittleness and notches.','A good contact profile, but not a universal tribological material.','The most demanding among PA66 in molding and tooling wear.','High cost and equipment requirements.']},\n    pa610cf30:{name:'PA610 CF30',color:'#2d6f9f',values:[4.5,4,4.5,4,4.5,3,4,3,2],desc:['Rigid CF30 with a matrix that is more stable against moisture.','Good lightweighting potential for precision parts.','A strong zone of precise fits and lower moisture drift.','Substantially better than PA6\/PA66 in humid conditions.','A high thermal profile compared to PA6\/PA66.','Impact resistance needs verification, as in most CF systems.','Good contact stability.','More niche and demanding processing.','More expensive than basic PA6\/PA66 solutions.']},\n    ppacf33:{name:'PPA \/ PA CF33',color:'#7c5bd6',values:[4.5,4,5,4.5,5,3,4,2.5,1.5],desc:['The top zone for stable stiffness in demanding regimes.','High modulus at polymer weight.','The best profile for dimensions, CLTE and stability in a demanding environment.','Stronger than PA6\/PA66 under moisture risks.','The best choice on this list under heat and thermal cycling.','Not the best scenario for an impact-loaded part without verification.','A good level for technical contact zones.','A narrower processing window and a high cost of process errors.','The most expensive level, justified only by the technical task.']}\n  };\n  function esc(s){return String(s).replace(\/[&<>\"']\/g,function(c){return 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window.pacfRadarReset=function(){var e=getEls(); if(e.s1)e.s1.value='pa6cf30'; if(e.s2)e.s2.value='pa6gf30'; if(e.s3)e.s3.value=''; draw();};\n  function bind(){var e=getEls();[e.s1,e.s2,e.s3].forEach(function(sel){ if(sel && !sel.dataset.pacfBound){sel.dataset.pacfBound='1';sel.addEventListener('input',draw);sel.addEventListener('change',draw);} });draw();}\n  if(document.readyState==='loading') document.addEventListener('DOMContentLoaded',bind); else bind(); setTimeout(bind,300); setTimeout(bind,1200);\n})();\n<\/script><br \/>\n<\/body><br \/>\n<\/html><\/p>","protected":false},"excerpt":{"rendered":"<p>Carbon-Fiber-Filled Polyamides PA-CF \u2014 Examid\u00ae | Material Wizard MaterialWizard \/ PA-CF Material logicPropertiesInteractiveExamid\u00ae gradesLimitationsGrade selection Examid\u00ae PA-CF \/ carbon fiber reinforced polyamides Examid\u00ae PA-CF for structures where stiffness, low weight and geometric repeatability are critical PA-CF is worth designing into a project for assemblies where specific stiffness, low CLTE, deflection stability, dimensional accuracy and the [&hellip;]<\/p>\n","protected":false},"author":1,"featured_media":3068,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"class_list":["post-5251","page","type-page","status-publish","has-post-thumbnail","hentry"],"yoast_head":"<!-- This site is optimized with the Yoast SEO plugin v27.7 - https:\/\/yoast.com\/product\/yoast-seo-wordpress\/ -->\n<title>Examid\u00ae PA-CF Carbon-Fiber Polyamides \u2014 MW Carbon Nylon Range<\/title>\n<meta name=\"description\" content=\"Examid\u00ae carbon-fiber polyamide range by Material Wizard: PA6 CF30, PA66 CF30\/CF40, PA12 CF30, PA66 CF30+GF, PPA CF33. 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