{"id":3661,"date":"2026-06-06T21:07:32","date_gmt":"2026-06-06T13:07:32","guid":{"rendered":"https:\/\/www.fissot.com\/?post_type=naibb2pr_products&#038;p=3661"},"modified":"2026-06-06T21:30:45","modified_gmt":"2026-06-06T13:30:45","slug":"aluminum-clad-steel-wire","status":"publish","type":"naibb2pr_products","link":"https:\/\/www.fissot.com\/es\/products\/aluminum-clad-steel-wire\/","title":{"rendered":"Alambre de acero revestido de aluminio (ACS)"},"content":{"rendered":"<div style=\"height:40px\" aria-hidden=\"true\" id=\"specs\" class=\"wp-block-spacer\"><\/div>\n<style>\n    .fissot-acs-wrapper {\n        font-family: -apple-system, BlinkMacSystemFont, \"Segoe UI\", Roboto, Helvetica, Arial, sans-serif;\n        color: #333;\n        margin-bottom: 50px;\n        max-width: 100%;\n    }\n    \n    \/* \u9009\u9879\u5361\u6309\u94ae\u5bb9\u5668 - \u7070\u9ed1\u98ce\u683c\u7ebf *\/\n    .acs-tabs {\n        display: flex;\n        gap: 4px;\n        border-bottom: 2px solid #2d3748; \/* \u4fee\u6539\uff1a\u6df1\u66dc\u9502\u7070 *\/\n        margin-bottom: 0;\n        flex-wrap: wrap; \/* \u9632\u6b62\u79fb\u52a8\u7aef\u6324\u538b *\/\n    }\n    \n    \/* \u9009\u9879\u5361\u6309\u94ae\u6837\u5f0f *\/\n    .acs-tab-btn {\n        background-color: #f8f9fa;\n        color: #666;\n        border: 1px solid #e2e8f0;\n        border-bottom: none;\n        padding: 10px 18px;\n        cursor: pointer;\n        border-radius: 4px 4px 0 0;\n        font-weight: 600;\n        font-size: 14px;\n        transition: all 0.2s ease;\n        outline: none;\n    }\n    \n    .acs-tab-btn:hover {\n        background-color: #edf2f7;\n        color: #2d3748;\n    }\n    \n    \/* \u6fc0\u6d3b\u72b6\u6001\u7684\u9009\u9879\u5361 - \u7070\u9ed1\u98ce\u683c *\/\n    .acs-tab-btn.active {\n        background-color: #2d3748; \/* \u4fee\u6539\uff1a\u6df1\u66dc\u9502\u7070\u6fc0\u6d3b\u80cc\u666f *\/\n        color: white;\n        border-color: #2d3748;\n    }\n\n    \/* \u9009\u9879\u5361\u5185\u5bb9\u5bb9\u5668 *\/\n    .acs-tab-content {\n        display: none;\n        animation: fadeIn 0.3s ease;\n    }\n\n    .acs-tab-content.active {\n        display: block;\n    }\n\n    @keyframes fadeIn {\n        from { opacity: 0; }\n        to { opacity: 1; }\n    }\n\n    .table-responsive {\n        width: 100%;\n        overflow-x: auto;\n        -webkit-overflow-scrolling: touch; \/* \u63d0\u5347\u79fb\u52a8\u7aef\u6ed1\u52a8\u4f53\u9a8c *\/\n        border: 1px solid #e2e8f0;\n        border-top: none; \/* \u9876\u90e8\u8fb9\u6846\u4ea4\u7531\u9009\u9879\u5361\u5904\u7406 *\/\n        border-radius: 0 0 4px 4px; \/* \u5e95\u90e8\u5706\u89d2 *\/\n        margin-bottom: 40px;\n    }\n    \n    .acs-table {\n        width: 100%;\n        border-collapse: collapse;\n        font-size: 12px; \n        white-space: nowrap; \n    }\n    .acs-table th {\n        background-color: #f7f9fa;\n        color: #1a202c;\n        font-weight: bold;\n        padding: 10px 8px;\n        border: 1px solid #e2e8f0;\n        text-align: center;\n        line-height: 1.3;\n    }\n    .acs-table td {\n        padding: 9px 8px;\n        border: 1px solid #e2e8f0;\n        text-align: center;\n    }\n    .acs-table tr:nth-child(even) td {\n        background-color: #fdfdfd;\n    }\n    \n    \/* \u9f20\u6807\u60ac\u505c\u9ad8\u4eae\u6574\u884c *\/\n    .acs-table tr:hover td {\n        background-color: #edf2f7;\n    }\n\n    \/* \u9996\u5217\u51bb\u7ed3 *\/\n    .acs-table th:first-child,\n    .acs-table td:first-child {\n        position: sticky;\n        left: 0;\n        font-weight: bold;\n        background-color: #fff;\n        box-shadow: 2px 0 5px rgba(0,0,0,0.05); \n        z-index: 1;\n    }\n    .acs-table th:first-child {\n        background-color: #f7f9fa;\n        z-index: 2; \/* \u8868\u5934\u7684\u4f18\u5148\u7ea7\u6700\u9ad8 *\/\n    }\n    .acs-table tr:nth-child(even) td:first-child {\n        background-color: #fdfdfd;\n    }\n    .acs-table tr:hover td:first-child {\n        background-color: #edf2f7;\n    }\n<\/style>\n\n<div class=\"fissot-acs-wrapper\">\n    \n    <div class=\"acs-tabs\">\n        <button class=\"acs-tab-btn active\" onclick=\"openAcsTab(event, 'tab-lb14')\">Grado LB14 (14% IACS)<\/button>\n        <button class=\"acs-tab-btn\" onclick=\"openAcsTab(event, 'tab-lb20')\">Grado LB20 (20.3% IACS)<\/button>\n        <button class=\"acs-tab-btn\" onclick=\"openAcsTab(event, 'tab-lb27')\">Grado LB27 (27% IACS)<\/button>\n        <button class=\"acs-tab-btn\" onclick=\"openAcsTab(event, 'tab-lb40')\">Grado LB40 (40% IACS)<\/button>\n    <\/div>\n\n    <div id=\"tab-lb14\" class=\"acs-tab-content active\">\n        <div class=\"table-responsive\">\n            <table class=\"acs-table\">\n                <thead>\n                    <tr>\n                        <th>Grado<\/th>\n                        <th>Rango de di\u00e1metro (mm)<\/th>\n                        <th>Resistencia a la tracci\u00f3n m\u00edn. (MPa)<\/th>\n                        <th>Tensi\u00f3n m\u00edn. al 1% de alargamiento (MPa)<\/th>\n                        <th>Alargamiento m\u00edn. a la rotura (%)<\/th>\n                        <th>Alargamiento m\u00edn. tras la rotura (%)<\/th>\n                        <th>Resistencia m\u00e1x. a 20\u00b0C (n\u03a9\u00b7m)<\/th>\n                    <\/tr>\n                <\/thead>\n                <tbody>\n                    <tr><td rowspan=\"4\">A<\/td><td>2.25 &lt; d \u2264 3.00<\/td><td>1590<\/td><td>1410<\/td><td rowspan=\"12\">1.5<\/td><td rowspan=\"12\">1.0<\/td><td rowspan=\"16\">123.15<\/td><\/tr>\n                    <tr><td>3.00 &lt; d \u2264 3.50<\/td><td>1550<\/td><td>1380<\/td><\/tr>\n                    <tr><td>3.50 &lt; d \u2264 4.75<\/td><td>1520<\/td><td>1340<\/td><\/tr>\n                    <tr><td>4.75 &lt; d \u2264 5.50<\/td><td>1500<\/td><td>1270<\/td><\/tr>\n                    \n                    <tr><td rowspan=\"4\">B<\/td><td>1.75 &lt; d \u2264 2.25<\/td><td>1825<\/td><td>1550<\/td><\/tr>\n                    <tr><td>2.25 &lt; d \u2264 3.00<\/td><td>1790<\/td><td>1500<\/td><\/tr>\n                    <tr><td>3.00 &lt; d \u2264 3.50<\/td><td>1760<\/td><td>1470<\/td><\/tr>\n                    <tr><td>3.50 &lt; d \u2264 4.75<\/td><td>1725<\/td><td>1430<\/td><\/tr>\n                    \n                    <tr><td rowspan=\"4\">C<\/td><td>1.24 &lt; d \u2264 2.25<\/td><td>1965<\/td><td>1580<\/td><\/tr>\n                    <tr><td>2.25 &lt; d \u2264 3.00<\/td><td>1900<\/td><td>1550<\/td><\/tr>\n                    <tr><td>3.00 &lt; d \u2264 3.50<\/td><td>1860<\/td><td>1515<\/td><\/tr>\n                    <tr><td>3.50 &lt; d \u2264 4.75<\/td><td>1825<\/td><td>1480<\/td><\/tr>\n                    \n                    <tr><td rowspan=\"4\">D<\/td><td>2.25 &lt; d \u2264 3.00<\/td><td>1590<\/td><td>1410<\/td><td rowspan=\"4\">2.5<\/td><td rowspan=\"4\">2.0<\/td><\/tr>\n                    <tr><td>3.00 &lt; d \u2264 3.50<\/td><td>1550<\/td><td>1380<\/td><\/tr>\n                    <tr><td>3.50 &lt; d \u2264 4.75<\/td><td>1520<\/td><td>1340<\/td><\/tr>\n                    <tr><td>4.75 &lt; d \u2264 5.50<\/td><td>1500<\/td><td>1270<\/td><\/tr>\n                <\/tbody>\n            <\/table>\n        <\/div>\n    <\/div>\n\n    <div id=\"tab-lb20\" class=\"acs-tab-content\">\n        <div class=\"table-responsive\">\n            <table class=\"acs-table\">\n                <thead>\n                    <tr>\n                        <th>Grado<\/th>\n                        <th>Rango de di\u00e1metro (mm)<\/th>\n                        <th>Resistencia a la tracci\u00f3n m\u00edn. (MPa)<\/th>\n                        <th>Tensi\u00f3n m\u00edn. al 1% de alargamiento (MPa)<\/th>\n                        <th>Alargamiento m\u00edn. a la rotura (%)<\/th>\n                        <th>Alargamiento m\u00edn. tras la rotura (%)<\/th>\n                        <th>Resistencia m\u00e1x. a 20\u00b0C (n\u03a9\u00b7m)<\/th>\n                    <\/tr>\n                <\/thead>\n                <tbody>\n                    <tr><td rowspan=\"9\">A<\/td><td>1.24 &lt; d \u2264 3.25<\/td><td>1340<\/td><td>1200<\/td><td rowspan=\"13\">1.5<\/td><td rowspan=\"13\">1.0<\/td><td rowspan=\"22\">84.80<\/td><\/tr>\n                    <tr><td>3.25 &lt; d \u2264 3.45<\/td><td>1310<\/td><td>1180<\/td><\/tr>\n                    <tr><td>3.45 &lt; d \u2264 3.65<\/td><td>1270<\/td><td>1140<\/td><\/tr>\n                    <tr><td>3.65 &lt; d \u2264 3,95<\/td><td>1250<\/td><td>1100<\/td><\/tr>\n                    <tr><td>3.95 &lt; d \u2264 4,10<\/td><td>1210<\/td><td>1100<\/td><\/tr>\n                    <tr><td>4.10 &lt; d \u2264 4,40<\/td><td>1180<\/td><td>1070<\/td><\/tr>\n                    <tr><td>4.40 &lt; d \u2264 4,60<\/td><td>1140<\/td><td>1030<\/td><\/tr>\n                    <tr><td>4.60 &lt; d \u2264 4.75<\/td><td>1100<\/td><td>1000<\/td><\/tr>\n                    <tr><td>4.75 &lt; d \u2264 5.50<\/td><td>1070<\/td><td>1000<\/td><\/tr>\n                    \n                    <tr><td rowspan=\"4\">B<\/td><td>1.28 &lt; d \u2264 2,28<\/td><td>1620<\/td><td>1390<\/td><\/tr>\n                    <tr><td>2.28 &lt; d \u2264 3,04<\/td><td>1580<\/td><td>1360<\/td><\/tr>\n                    <tr><td>3.04 &lt; d \u2264 3,55<\/td><td>1545<\/td><td>1330<\/td><\/tr>\n                    <tr><td>3.55 &lt; d \u2264 4,82<\/td><td>1515<\/td><td>1300<\/td><\/tr>\n                    \n                    <tr><td rowspan=\"9\">C<\/td><td>1.24 &lt; d \u2264 3.25<\/td><td>1340<\/td><td>1200<\/td><td rowspan=\"9\">2.5<\/td><td rowspan=\"9\">2.0<\/td><\/tr>\n                    <tr><td>3.25 &lt; d \u2264 3.45<\/td><td>1310<\/td><td>1180<\/td><\/tr>\n                    <tr><td>3.45 &lt; d \u2264 3.65<\/td><td>1270<\/td><td>1140<\/td><\/tr>\n                    <tr><td>3.65 &lt; d \u2264 3,95<\/td><td>1250<\/td><td>1100<\/td><\/tr>\n                    <tr><td>3.95 &lt; d \u2264 4,10<\/td><td>1210<\/td><td>1100<\/td><\/tr>\n                    <tr><td>4.10 &lt; d \u2264 4,40<\/td><td>1180<\/td><td>1070<\/td><\/tr>\n                    <tr><td>4.40 &lt; d \u2264 4,60<\/td><td>1140<\/td><td>1030<\/td><\/tr>\n                    <tr><td>4.60 &lt; d \u2264 4.75<\/td><td>1100<\/td><td>1000<\/td><\/tr>\n                    <tr><td>4.75 &lt; d \u2264 5.50<\/td><td>1070<\/td><td>1000<\/td><\/tr>\n                <\/tbody>\n            <\/table>\n        <\/div>\n    <\/div>\n\n    <div id=\"tab-lb27\" class=\"acs-tab-content\">\n        <div class=\"table-responsive\">\n            <table class=\"acs-table\">\n                <thead>\n                    <tr>\n                        <th>Grado<\/th>\n                        <th>Rango de di\u00e1metro (mm)<\/th>\n                        <th>Resistencia a la tracci\u00f3n m\u00edn. (MPa)<\/th>\n                        <th>Tensi\u00f3n m\u00edn. al 1% de alargamiento (MPa)<\/th>\n                        <th>Alargamiento m\u00edn. a la rotura (%)<\/th>\n                        <th>Alargamiento m\u00edn. tras la rotura (%)<\/th>\n                        <th>Resistencia m\u00e1x. a 20\u00b0C (n\u03a9\u00b7m)<\/th>\n                    <\/tr>\n                <\/thead>\n                <tbody>\n                    <tr>\n                        <td>Est\u00e1ndar<\/td>\n                        <td>2.50 &lt; d \u2264 5,00<\/td>\n                        <td>1080<\/td>\n                        <td>800<\/td>\n                        <td>1.5<\/td>\n                        <td>1.0<\/td>\n                        <td>63.86<\/td>\n                    <\/tr>\n                <\/tbody>\n            <\/table>\n        <\/div>\n    <\/div>\n\n    <div id=\"tab-lb40\" class=\"acs-tab-content\">\n        <div class=\"table-responsive\">\n            <table class=\"acs-table\">\n                <thead>\n                    <tr>\n                        <th>Grado<\/th>\n                        <th>Rango de di\u00e1metro (mm)<\/th>\n                        <th>Resistencia a la tracci\u00f3n m\u00edn. (MPa)<\/th>\n                        <th>Tensi\u00f3n m\u00edn. al 1% de alargamiento (MPa)<\/th>\n                        <th>Alargamiento m\u00edn. a la rotura (%)<\/th>\n                        <th>Alargamiento m\u00edn. tras la rotura (%)<\/th>\n                        <th>Resistencia m\u00e1x. a 20\u00b0C (n\u03a9\u00b7m)<\/th>\n                    <\/tr>\n                <\/thead>\n                <tbody>\n                    <tr>\n                        <td>Est\u00e1ndar<\/td>\n                        <td>2.50 &lt; d \u2264 5,00<\/td>\n                        <td>680<\/td>\n                        <td>500<\/td>\n                        <td>1.5<\/td>\n                        <td>1.0<\/td>\n                        <td>43.10<\/td>\n                    <\/tr>\n                <\/tbody>\n            <\/table>\n        <\/div>\n    <\/div>\n<\/div>\n\n<script>\n    \/\/ \u94dd\u5305\u94a2\uff08ACS\uff09\u9009\u9879\u5361\u5207\u6362\u4ea4\u4e92\u903b\u8f91\n    function openAcsTab(evt, tabName) {\n        \/\/ \u9690\u85cf\u6240\u6709\u8868\u683c\u5185\u5bb9\n        var tabcontent = document.getElementsByClassName(\"acs-tab-content\");\n        for (var i = 0; i < tabcontent.length; i++) {\n            tabcontent[i].style.display = \"none\";\n            tabcontent[i].classList.remove(\"active\");\n        }\n        \n        \/\/ \u79fb\u9664\u6240\u6709\u9009\u9879\u5361\u6309\u94ae\u7684\u6fc0\u6d3b\u72b6\u6001\n        var tablinks = document.getElementsByClassName(\"acs-tab-btn\");\n        for (var i = 0; i < tablinks.length; i++) {\n            tablinks[i].className = tablinks[i].className.replace(\" active\", \"\");\n        }\n        \n        \/\/ \u663e\u793a\u5f53\u524d\u9009\u4e2d\u7684\u8868\u683c\uff0c\u5e76\u6dfb\u52a0\u6fc0\u6d3b\u6837\u5f0f\n        document.getElementById(tabName).style.display = \"block\";\n        document.getElementById(tabName).classList.add(\"active\");\n        evt.currentTarget.className += \" active\";\n    }\n<\/script>\n\n\n\n<section id=\"faq-two-columns-v1-iqhssk\" class=\"tpl-section tpl-faq-two-cols\">\n  <div class=\"tpl-container\">\n    <div class=\"tpl-section-header tpl-text-center\">\n      <h2 class=\"section-title\">Preguntas frecuentes sobre el cable de acero revestido de aluminio<\/h2>\n    <\/div>\n    <div class=\"tpl-faq-grid\">\n      <div class=\"tpl-faq-col\">\n        <details class=\"tpl-faq-item\" open=\"\">\n          <summary>\u00bfCu\u00e1les son las principales ventajas estructurales del alambre de acero revestido de aluminio (ACS) sobre el alambre de acero galvanizado en los n\u00facleos de ACSR?<\/summary>\n          <div class=\"tpl-faq-answer\">Las principales ventajas incluyen una resistencia a la corrosi\u00f3n excepcional y una mayor relaci\u00f3n resistencia-peso. El alambre galvanizado depende de una capa de zinc de sacrificio que se degrada con el tiempo, creando un alto riesgo de corrosi\u00f3n galv\u00e1nica en la interfaz de cobre\/aluminio. El cable ACS de FISSOT\u00ae crea una barrera metal\u00fargica impermeable de aluminio, asegurando que el n\u00facleo dure tanto como los hilos conductores exteriores, al tiempo que reduce el peso total del cable para evitar la ca\u00edda de las l\u00edneas de transmisi\u00f3n.<\/div>\n        <\/details>\n        <details class=\"tpl-faq-item\">\n          <summary>\u00bfC\u00f3mo se comporta el cable ACS durante eventos de cortocircuito el\u00e9ctrico y ca\u00edda de rayos?<\/summary>\n          <div class=\"tpl-faq-answer\">El cable ACS presenta una conductividad el\u00e9ctrica significativamente mayor que el cable de acero galvanizado (t\u00edpicamente del 20,3% al 40% IACS frente a aproximadamente el 8% IACS). Durante cortocircuitos o descargas de rayos, la gruesa capa exterior de aluminio proporciona una trayectoria de baja resistencia que desv\u00eda de forma segura la corriente de falla lejos de los n\u00facleos \u00f3pticos cruciales (en OPGW) o conductores, reduciendo el sobrecalentamiento estructural y el fallo t\u00e9rmico el\u00e9ctrico.<\/div>\n        <\/details>\n        <details class=\"tpl-faq-item\">\n          <summary>\u00bfPuede FISSOT\u00ae personalizar combinaciones espec\u00edficas de conductividad y mec\u00e1nica para vanos de red especializados?<\/summary>\n          <div class=\"tpl-faq-answer\">S\u00ed. Como unidad oficial de redacci\u00f3n de normas, FISSOT\u00ae puede personalizar el espesor de la capa de aluminio revestido y las concentraciones de carbono del acero. Esto nos permite fabricar combinaciones a medida como Clase 30I o Clase 40I combinadas con n\u00facleos de acero est\u00e1ndar, de alta resistencia o de resistencia extra alta, adaptadas a sus longitudes de vano exactas y vientos cruzados atmosf\u00e9ricos.<\/div>\n        <\/details>\n      <\/div>\n      <div class=\"tpl-faq-col\">\n        <details class=\"tpl-faq-item\">\n          <summary>\u00bfCon qu\u00e9 normas internacionales cumple el cable ACS de FISSOT\u00ae?<\/summary>\n          <div class=\"tpl-faq-answer\">Toda nuestra l\u00ednea de producci\u00f3n cumple estrictamente y supera los criterios internacionales, incluidos ASTM B415 (Especificaci\u00f3n est\u00e1ndar para cables de acero revestidos de aluminio trefilados en duro), ASTM B416 (Conductores de acero revestidos de aluminio trenzados de capa conc\u00e9ntrica) e IEC 61232. Adem\u00e1s, nuestros flujos de trabajo de ingenier\u00eda integran los puntos de referencia establecidos por la norma ISO 14811:2025.<\/div>\n        <\/details>\n        <details class=\"tpl-faq-item\">\n          <summary>\u00bfC\u00f3mo garantiza la tecnolog\u00eda FISSOT\u00ae que las capas de aluminio y acero no se separen durante la tensi\u00f3n de instalaci\u00f3n?<\/summary>\n          <div class=\"tpl-faq-answer\">Aprovechamos t\u00e9cnicas de fabricaci\u00f3n patentadas que refuerzan la uni\u00f3n en fase s\u00f3lida bajo una presi\u00f3n intensiva elevada. Este proceso fusiona las redes cristalinas de la capa de aluminio y el n\u00facleo de acero, formando un enlace at\u00f3mico unificado. El cable puede someterse a estirado, torsi\u00f3n y tensi\u00f3n en campo continuos sin riesgo de que la capa se desprenda o se agriete.<\/div>\n        <\/details>\n        <details class=\"tpl-faq-item\">\n          <summary>\u00bfCu\u00e1l es el ciclo de vida de temperatura operativa t\u00edpico para el cable ACS dentro de las redes el\u00e9ctricas?<\/summary>\n          <div class=\"tpl-faq-answer\">Nuestros cables ACS trefilados de primera calidad est\u00e1n clasificados para ciclos operativos continuos de hasta 150\u00b0C y picos t\u00e9rmicos de emergencia a corto plazo de hasta 300\u00b0C sin sufrir recocido estructural ni p\u00e9rdida de rendimiento de tracci\u00f3n. Esta capacidad garantiza una estabilidad completa dentro de los corredores de transmisi\u00f3n de alta capacidad.<\/div>\n        <\/details>\n      <\/div>\n    <\/div>\n  <\/div>\n<\/section>\n\n\n\n<script type=\"application\/ld+json\">{\n    \"@context\": \"https:\\\/\\\/schema.org\",\n    \"@graph\": [\n        {\n            \"@type\": \"Product\",\n            \"@id\": \"https:\\\/\\\/www.fissot.com\\\/products\\\/aluminum-clad-steel-wire\\\/#product\",\n            \"name\": \"Aluminum Clad Steel (ACS) Wire\",\n            \"image\": \"https:\\\/\\\/www.fissot.com\\\/wp-content\\\/uploads\\\/2026\\\/06\\\/ACS_wire.png\",\n            \"description\": \"High-performance Aluminum Clad Steel (ACS) wire engineered using proprietary cladding technology. Features exceptional corrosion resistance, high tensile strength up to \\u22651350 MPa, and full compliance with IEC 61232 and ISO 14811:2025.\",\n            \"brand\": {\n                \"@type\": \"Brand\",\n                \"name\": \"FISSOT\\u00ae\"\n            },\n            \"material\": \"Bimetallic Aluminum-Clad Steel\",\n            \"aggregateRating\": {\n                \"@type\": \"AggregateRating\",\n                \"ratingValue\": \"4.9\",\n                \"reviewCount\": \"28\",\n                \"bestRating\": \"5\",\n                \"worstRating\": \"1\"\n            },\n            \"additionalProperty\": [\n                {\n                    \"@type\": \"PropertyValue\",\n                    \"name\": \"Standard Compliance\",\n                    \"value\": \"ISO 14811:2025, IEC 61232, ASTM B415, ASTM B416\"\n                },\n                {\n                    \"@type\": \"PropertyValue\",\n                    \"name\": \"Conductivity Range\",\n                    \"value\": \"20.3% IACS (Class 20A), 27% IACS, 30% IACS, 40% IACS\"\n                },\n                {\n                    \"@type\": \"PropertyValue\",\n                    \"name\": \"Diameter Range\",\n                    \"value\": \"1.50 mm - 5.00 mm\"\n                },\n                {\n                    \"@type\": \"PropertyValue\",\n                    \"name\": \"Tensile Strength Range\",\n                    \"value\": \"550 MPa - 1350+ MPa\"\n                }\n            ]\n        },\n        {\n            \"@type\": \"FAQPage\",\n            \"@id\": \"https:\\\/\\\/www.fissot.com\\\/products\\\/aluminum-clad-steel-wire\\\/#faq\",\n            \"mainEntity\": [\n                {\n                    \"@type\": \"Question\",\n                    \"name\": \"What are the primary structural advantages of Aluminum Clad Steel (ACS) wire over galvanized steel wire in ACSR cores?\",\n                    \"acceptedAnswer\": {\n                        \"@type\": \"Answer\",\n                        \"text\": \"The main advantages include exceptional corrosion resistance and a higher strength-to-weight ratio. 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Utilizando tecnolog\u00eda avanzada de <b data-path-to-node=\"3\" data-index-in-node=\"163\"><a title=\"Conozca m\u00e1s sobre la Tecnolog\u00eda de Revestimiento en Fr\u00edo\" href=\"\/technical-library\/what-is-cold-cladding-technology\/\">revestimiento metal\u00fargico<\/a><\/b> de FISSOT\u00ae, nuestro alambre ACS equilibra perfectamente la excelente conductividad el\u00e9ctrica y resistencia a la corrosi\u00f3n del aluminio con la robusta tensi\u00f3n mec\u00e1nica del acero. Es la opci\u00f3n principal para OPGW (cables de tierra \u00f3pticos), n\u00facleos de l\u00edneas de transmisi\u00f3n a\u00e9reas (ACSR\/AW) y sistemas de catenaria ferroviaria.<\/p>\n<h3 data-path-to-node=\"4\">\ud83c\udf1f Beneficios Clave<\/h3>\n<ul data-path-to-node=\"5\">\n<li>\n<p data-path-to-node=\"5,0,0\"><b data-path-to-node=\"5,0,0\" data-index-in-node=\"0\">\ud83d\udd17 Cero corrosi\u00f3n galv\u00e1nica:<\/b> A diferencia del alambre de acero galvanizado tradicional, el revestimiento de aluminio metal\u00fargico continuo elimina la capa de interfaz electroqu\u00edmica interna, evitando por completo la corrosi\u00f3n del n\u00facleo en entornos costeros, industriales y de alta humedad.<\/p>\n<\/li>\n<li>\n<p data-path-to-node=\"5,1,0\"><b data-path-to-node=\"5,1,0\" data-index-in-node=\"0\">\ud83d\udcaa Alta relaci\u00f3n resistencia-peso:<\/b> Hereda la integridad estructural de un n\u00facleo de acero con alto contenido de carbono, mientras que la capa exterior de aluminio minimiza significativamente el peso muerto, reduciendo la flecha en l\u00edneas a\u00e9reas de gran vano.<\/p>\n<\/li>\n<li>\n<p data-path-to-node=\"5,2,0\"><b data-path-to-node=\"5,2,0\" data-index-in-node=\"0\">\u26a1 Capacidad superior ante fallas:<\/b> Proporciona una excelente conductividad el\u00e9ctrica (que var\u00eda del <b data-path-to-node=\"5,2,0\" data-index-in-node=\"53\">14% al 40% IACS<\/b>), actuando como una ruta altamente eficiente para corrientes de falla y rayos para salvaguardar la estabilidad de la red el\u00e9ctrica.<\/p>\n<\/li>\n<li>\n<p data-path-to-node=\"5,3,0\"><b data-path-to-node=\"5,3,0\" data-index-in-node=\"0\">\ud83c\udf21\ufe0f Excelente longevidad t\u00e9rmica:<\/b> Dise\u00f1ado para operar continuamente a altas temperaturas de hasta 150\u00b0C sin degradaci\u00f3n de la uni\u00f3n ni fallas mec\u00e1nicas.<\/p>\n<\/li>\n<\/ul>\n<h3 data-path-to-node=\"8\">\ud83d\ude80 Principales Aplicaciones<\/h3>\n<ul data-path-to-node=\"9\">\n<li>\n<p data-path-to-node=\"9,0,0\"><b data-path-to-node=\"9,0,0\" data-index-in-node=\"0\">\ud83d\udef0\ufe0f OPGW (Cable de tierra \u00f3ptico):<\/b> Utilizado como cables de tensi\u00f3n estructural central y capas de blindaje en cables OPGW, proporcionando refuerzo mec\u00e1nico y una excelente desviaci\u00f3n de descargas de rayos.<\/p>\n<\/li>\n<li>\n<p data-path-to-node=\"9,1,0\"><b data-path-to-node=\"9,1,0\" data-index-in-node=\"0\">\u26a1 N\u00facleos de conductor ACSR\/AW:<\/b> Reemplaza los n\u00facleos de acero galvanizado est\u00e1ndar en conductores de aluminio reforzados con acero (ACSR) para reducir la resistencia de la l\u00ednea y disminuir la p\u00e9rdida de transmisi\u00f3n de la red el\u00e9ctrica.<\/p>\n<\/li>\n<li>\n<p data-path-to-node=\"9,2,0\"><b data-path-to-node=\"9,2,0\" data-index-in-node=\"0\">\ud83d\ude8a Catenaria de tren de alta velocidad:<\/b> Sirve como cables mensajeros de catenaria y cables de tierra auxiliares bajo tensi\u00f3n mec\u00e1nica extrema y entornos ferroviarios de alta vibraci\u00f3n.<\/p>\n<\/li>\n<\/ul>","protected":false},"featured_media":3664,"template":"","naibb2pr_product_category":[],"naibb2pr_product_tag":[],"class_list":["post-3661","naibb2pr_products","type-naibb2pr_products","status-publish","has-post-thumbnail","hentry"],"yoast_head":"<!-- This site is optimized with the Yoast SEO Premium plugin v27.2 (Yoast SEO v27.2) - https:\/\/yoast.com\/product\/yoast-seo-premium-wordpress\/ -->\n<title>Aluminum Clad Steel (ACS) Wire Specs &amp; Grades | FISSOT\u00ae<\/title>\n<meta name=\"description\" content=\"Premium ACS wire engineered by FISSOT\u00ae, the official standard drafter for bimetallic conductors (ISO 14811:2025). 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