{"id":16844,"date":"2026-05-05T14:21:42","date_gmt":"2026-05-05T19:21:42","guid":{"rendered":"https:\/\/blog.misumiusa.com\/?page_id=16844"},"modified":"2026-05-05T14:49:57","modified_gmt":"2026-05-05T19:49:57","slug":"yield-strength-stress-chart","status":"publish","type":"page","link":"https:\/\/us.misumi-ec.com\/blog\/yield-strength-stress-chart\/","title":{"rendered":"Yield Strength &#038; Stress Chart"},"content":{"rendered":"\n<p>Tensile strength is one of the more common ways to compare how materials behave under pulling or stretching forces. In manufacturing.  This chart can be useful as a starting point when comparing materials such as steel, aluminum, stainless steel, titanium, copper alloys, engineering plastics, and reinforced composites. However, it should be noted that yield strength, hardness, ductility, corrosion resistance, weight, machinability, and operating environment can all affect whether a material is suitable for a specific application.<\/p>\n\n\n\n<h2>What is Yield Strength<\/h2>\n\n\n\n<p>Yield strength is the amount of stress a material can withstand before it begins to deform permanently. Up to this point, the material may stretch, bend, or compress and still return to its original shape when the load is removed. Once the yield strength is exceeded, the material enters plastic deformation, meaning the change in shape is permanent.<\/p>\n\n\n\n<p><\/p>\n\n\n\n<div class=\"misumi-tensile-strength-table\">\n  <style>\n    .misumi-tensile-strength-table {\n      --misumi-blue: #005BAC;\n      --misumi-yellow: #FFD100;\n      --misumi-black: #111111;\n      --misumi-white: #ffffff;\n      --misumi-light: #f7f9fc;\n      --misumi-border: #d7dce3;\n\n      width: 100%;\n      margin: 24px 0;\n      font-family: Arial, Helvetica, sans-serif;\n      color: var(--misumi-black);\n    }\n\n    .misumi-tensile-strength-table .table-wrap {\n      width: 100%;\n      overflow-x: auto;\n      border: 1px solid var(--misumi-border);\n      border-radius: 8px;\n      background: var(--misumi-white);\n    }\n\n    .misumi-tensile-strength-table table {\n      width: 100%;\n      border-collapse: collapse;\n      min-width: 760px;\n      font-size: 14px;\n      line-height: 1.4;\n    }\n\n    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<th>Typical Ultimate Tensile Strength<\/th>\n          <th>Typical Yield Strength<\/th>\n        <\/tr>\n      <\/thead>\n      <tbody>\n        <tr>\n          <td class=\"material\">Structural Steel<\/td>\n          <td>ASTM A36<\/td>\n          <td class=\"strength\">400\u2013550 MPa<\/td>\n          <td class=\"strength\">250\u2013350 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Low Carbon Steel<\/td>\n          <td>Mild steel<\/td>\n          <td class=\"strength\">370\u2013520 MPa<\/td>\n          <td class=\"strength\">210\u2013350 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">High Carbon Steel<\/td>\n          <td>AISI 1090<\/td>\n          <td class=\"strength\">700\u2013900 MPa<\/td>\n          <td class=\"strength\">400\u2013650 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Medium Carbon Steel<\/td>\n          <td>AISI 1045<\/td>\n          <td class=\"strength\">565\u2013625 MPa<\/td>\n          <td class=\"strength\">310\u2013530 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Alloy Steel<\/td>\n          <td>AISI 4140, heat treated<\/td>\n          <td class=\"strength\">655\u20131,020 MPa<\/td>\n          <td class=\"strength\">415\u2013900 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">High-Strength Alloy Steel<\/td>\n          <td>ASTM A514<\/td>\n          <td class=\"strength\">760\u2013895 MPa<\/td>\n          <td class=\"strength\">690\u2013760 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Maraging Steel<\/td>\n          <td>18Ni maraging steel<\/td>\n          <td class=\"strength\">1,700\u20132,100 MPa<\/td>\n          <td class=\"strength\">1,500\u20131,900 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Stainless Steel<\/td>\n          <td>302, cold rolled<\/td>\n          <td class=\"strength\">860\u20131,275 MPa<\/td>\n          <td class=\"strength\">520\u2013965 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Stainless Steel<\/td>\n          <td>304<\/td>\n          <td class=\"strength\">515\u2013750 MPa<\/td>\n          <td class=\"strength\">205\u2013300 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Stainless Steel<\/td>\n          <td>316<\/td>\n          <td class=\"strength\">515\u2013620 MPa<\/td>\n          <td class=\"strength\">205\u2013290 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Cast Iron<\/td>\n          <td>Gray cast iron, ASTM A48<\/td>\n          <td class=\"strength\">140\u2013350 MPa<\/td>\n          <td class=\"strength\">Not typically defined<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Tool Steel<\/td>\n          <td>D2 \/ A2, hardened<\/td>\n          <td class=\"strength\">1,000\u20132,000 MPa<\/td>\n          <td class=\"strength\">700\u20131,700 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Aluminum<\/td>\n          <td>6061-T6<\/td>\n          <td class=\"strength\">290\u2013310 MPa<\/td>\n          <td class=\"strength\">240\u2013275 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Aluminum<\/td>\n          <td>2014-T6<\/td>\n          <td class=\"strength\">430\u2013485 MPa<\/td>\n          <td class=\"strength\">380\u2013415 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Aluminum<\/td>\n          <td>7075-T6<\/td>\n          <td class=\"strength\">500\u2013570 MPa<\/td>\n          <td class=\"strength\">430\u2013505 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Titanium<\/td>\n          <td>Grade 5 \/ Ti-6Al-4V<\/td>\n          <td class=\"strength\">895\u2013950 MPa<\/td>\n          <td class=\"strength\">825\u2013880 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Copper<\/td>\n          <td>C110 \/ 99.9% copper<\/td>\n          <td class=\"strength\">200\u2013400 MPa<\/td>\n          <td class=\"strength\">70\u2013350 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Brass<\/td>\n          <td>Common wrought brass alloys<\/td>\n          <td class=\"strength\">250\u2013550 MPa<\/td>\n          <td class=\"strength\">95\u2013450 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Bronze<\/td>\n          <td>Phosphor \/ aluminum bronze<\/td>\n          <td class=\"strength\">300\u2013800 MPa<\/td>\n          <td class=\"strength\">125\u2013500 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Cupronickel<\/td>\n          <td>90% Cu, 10% Ni<\/td>\n          <td class=\"strength\">300\u2013420 MPa<\/td>\n          <td class=\"strength\">105\u2013170 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Tungsten<\/td>\n          <td>Commercial tungsten<\/td>\n          <td class=\"strength\">750\u20131,000 MPa<\/td>\n          <td class=\"strength\">550\u2013750 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Nickel Alloy<\/td>\n          <td>Inconel 625<\/td>\n          <td class=\"strength\">760\u2013830 MPa<\/td>\n          <td class=\"strength\">345\u2013415 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Magnesium Alloy<\/td>\n          <td>AZ31B<\/td>\n          <td class=\"strength\">240\u2013290 MPa<\/td>\n          <td class=\"strength\">160\u2013220 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Zinc Alloy<\/td>\n          <td>Die-cast zinc alloys<\/td>\n          <td class=\"strength\">280\u2013400 MPa<\/td>\n          <td class=\"strength\">210\u2013330 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Polypropylene<\/td>\n          <td>General-purpose PP<\/td>\n          <td class=\"strength\">25\u201340 MPa<\/td>\n          <td class=\"strength\">25\u201335 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Nylon<\/td>\n          <td>Unfilled nylon 6\/6<\/td>\n          <td class=\"strength\">70\u201390 MPa<\/td>\n          <td class=\"strength\">45\u201385 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Polycarbonate<\/td>\n          <td>General-purpose sheet or molded material<\/td>\n          <td class=\"strength\">55\u201375 MPa<\/td>\n          <td class=\"strength\">55\u201365 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">ABS Plastic<\/td>\n          <td>General-purpose ABS<\/td>\n          <td class=\"strength\">35\u201350 MPa<\/td>\n          <td class=\"strength\">30\u201345 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">HDPE<\/td>\n          <td>High-density polyethylene<\/td>\n          <td class=\"strength\">20\u201335 MPa<\/td>\n          <td class=\"strength\">20\u201330 MPa<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Epoxy Resin<\/td>\n          <td>Unreinforced<\/td>\n          <td class=\"strength\">35\u201390 MPa<\/td>\n          <td class=\"strength\">Not typically defined<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Carbon Fiber Composite<\/td>\n          <td>Carbon fiber reinforced polymer<\/td>\n          <td class=\"strength\">600\u20133,500 MPa<\/td>\n          <td class=\"strength\">Varies by layup<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Fiberglass Composite<\/td>\n          <td>E-glass reinforced polymer<\/td>\n          <td class=\"strength\">300\u20131,500 MPa<\/td>\n          <td class=\"strength\">Varies by layup<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Glass<\/td>\n          <td>General glass<\/td>\n          <td class=\"strength\">30\u201390 MPa<\/td>\n          <td class=\"strength\">Not typically defined<\/td>\n        <\/tr>\n        <tr>\n          <td class=\"material\">Concrete<\/td>\n          <td>Unreinforced concrete<\/td>\n          <td class=\"strength\">2\u20135 MPa<\/td>\n          <td class=\"strength\">Not typically defined<\/td>\n        <\/tr>\n      <\/tbody>\n    <\/table>\n  <\/div>\n\n  <p class=\"table-note\">\n    <strong>Note:<\/strong> Tensile strength and yield strength values are approximate reference ranges. Actual values depend on alloy, grade, temper, heat treatment, manufacturing method, sample direction, fiber orientation, and test standard. For brittle materials and some composites, yield strength may not be commonly defined the same way it is for ductile metals.\n  <\/p>\n<\/div>\n\n\n\n<p><\/p>\n\n\n\n<h2>Parting Thoughts<\/h2>\n\n\n\n<p><a href=\"https:\/\/us.misumi-ec.com\/\">MISUMI USA<\/a>&nbsp;carries a wide range of industrial manufacturing components \u2013 including&nbsp;<a href=\"https:\/\/us.misumi-ec.com\/vona2\/mech_material\/M1401000000\/M1401020000\/\">Metal Plates &amp; Blocks<\/a>, and&nbsp;<a href=\"https:\/\/us.misumi-ec.com\/vona2\/mech_material\/M1401000000\/M1401060000\/\">Metal Cylinders &amp; Rods<\/a>&nbsp;\u2013 for your next project or machine fix. If you have any questions about measurement or sizing for your metal needs, feel free to&nbsp;connect with our <a href=\"https:\/\/us.misumi-ec.com\/service\/info\/help-center\/product-support.html\" title=\"\">product experts<\/a>, and engineers. Also, if you are looking for more insights be sure to check out our other blog articles, including:&nbsp;<a href=\"https:\/\/us.misumi-ec.com\/blog\/aluminum-alloy\/\">Aluminum Alloy \u2013 Uses in Manfacturing<\/a>,&nbsp;<a href=\"https:\/\/us.misumi-ec.com\/blog\/properties-of-aluminum-alloys\/\">Mechanical Properties of Aluminum Alloys<\/a>, <a href=\"https:\/\/us.misumi-ec.com\/blog\/stress-vs-strain\/\" title=\"\">Stress vs. Strain<\/a>, and more.<\/p>\n\n\n\n<p><strong>Author<\/strong>:&nbsp;<a href=\"https:\/\/us.misumi-ec.com\/blog\/author\/sbredemann\/\">Scott Bredemann<\/a>&nbsp;|&nbsp;<strong>Updated<\/strong>: 5\/5\/2026<\/p>\n\n\n\n<p class=\"has-small-font-size\"><strong>Disclaimer<\/strong>:<br>The content on this webpage is for informational purposes only. MISUMI makes no guarantees, expressed or implied, regarding the accuracy, completeness, or validity of the information. Performance parameters, tolerances, designs, materials, or processes should not be assumed to reflect third-party suppliers\u2019 or manufacturers\u2019 deliverables within MISUMI\u2019s network. Buyers are responsible for specifying their part requirements.<\/p>\n","protected":false},"excerpt":{"rendered":"<p>Tensile strength is one of the more common ways to compare how materials behave under pulling or stretching forces. In manufacturing. This chart can be useful as a starting point when comparing materials such as steel, aluminum, stainless steel, titanium, copper alloys, engineering plastics, and reinforced composites. However, it should be noted that yield strength, hardness, ductility, corrosion resistance, weight, [&hellip;]<\/p>\n","protected":false},"author":70,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"om_disable_all_campaigns":false},"aioseo_notices":[],"_links":{"self":[{"href":"https:\/\/us.misumi-ec.com\/blog\/wp-json\/wp\/v2\/pages\/16844"}],"collection":[{"href":"https:\/\/us.misumi-ec.com\/blog\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/us.misumi-ec.com\/blog\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/us.misumi-ec.com\/blog\/wp-json\/wp\/v2\/users\/70"}],"replies":[{"embeddable":true,"href":"https:\/\/us.misumi-ec.com\/blog\/wp-json\/wp\/v2\/comments?post=16844"}],"version-history":[{"count":6,"href":"https:\/\/us.misumi-ec.com\/blog\/wp-json\/wp\/v2\/pages\/16844\/revisions"}],"predecessor-version":[{"id":16960,"href":"https:\/\/us.misumi-ec.com\/blog\/wp-json\/wp\/v2\/pages\/16844\/revisions\/16960"}],"wp:attachment":[{"href":"https:\/\/us.misumi-ec.com\/blog\/wp-json\/wp\/v2\/media?parent=16844"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}