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action or later. Please see Debugging in WordPress for more information. (This message was added in version 6.7.0.) in /home4/zhwgroup/public_html/wp-includes/functions.php on line 6114ZHONGHAIWEI rubber lining craftsmen have the skill and experience to rubber line the most difficult projects. The ability to rubber line any fabrication in our facility that can be legally transported on any highway with an oversize shipping permit gives the end user a larger savings on their budget.\u00a0 ZHW also offers a complete field lining service at your plant for those projects to large to ship. Our head engineer had been trained in the Japanese rubber lining company for 30 years.<\/p>\n
There is a wide variety of materials used in the rubber protection industry. The type of rubber protection is specific to each separate application. Rubbers to inhibit abrasion, and corrosion from harsh chemicals include: Naturals, Gum, Neoprene, EPDM, Nitrile, Ebonite, Hypalon, Triflex, MOR and Chlorobutyl. These rubbers come in different thicknesses and durometers (a measure of how hard the rubber is after being cured). Durometer ratings are critical in the rubber lining applications where abrasion and wear is a concern. ZHONGHAIWEI rubber lining team has the experience and skill set to apply and cure all of the rubbers listed above.<\/p>\n
Description<\/strong><\/p>\n Advantage of rubber lining:<\/p>\n Using field:<\/p>\n For more information about the features and benefits of the ZHW rubber lining tanks, Download our brochure<\/strong><\/a><\/span>.<\/strong><\/p>\n For up-to-date pricing and availability information. Contact ZHW today<\/strong><\/a><\/span>.<\/strong><\/div>\n
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<\/i>Specification Table<\/h4><\/a><\/li><\/ul><\/div>
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\n Medium resistance specification table of rubber lining<\/td>\n<\/tr>\n \n NO<\/strong><\/td>\n Medium condition<\/strong><\/td>\n Pre-vulcanization<\/strong>
\n lining<\/strong><\/td>\nHeat-vulcanization lining<\/strong>
\n (Hard rubber)<\/strong><\/td>\nHeat-vulcanization lining<\/strong>
\n (Soft rubber)<\/strong><\/td>\n<\/tr>\n\n Medium<\/td>\n Concentration
\n(%)<\/td>\nTemperature
\n(\u2103)<\/td>\nZXB-5P<\/td>\n ZXR-4P<\/td>\n ZX8501<\/td>\n ZXE-5<\/td>\n ZXR-6<\/td>\n ZXB-5<\/td>\n ZXR-4<\/td>\n<\/tr>\n \n 1<\/td>\n HCL<\/td>\n 36<\/td>\n RT<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n<\/tr>\n \n 20<\/td>\n RT<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n<\/tr>\n \n 20<\/td>\n 85<\/td>\n \u25cb<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u25cb<\/td>\n \u221a<\/td>\n<\/tr>\n \n 2<\/td>\n H2<\/sub>SO4<\/sub><\/td>\n 60<\/td>\n RT<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n<\/tr>\n \n 40<\/td>\n 60<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n<\/tr>\n \n 40<\/td>\n 100<\/td>\n \u221a<\/td>\n \u25cb<\/td>\n \u0394<\/td>\n \u221a<\/td>\n \u25cb<\/td>\n \u221a<\/td>\n \u25cb<\/td>\n<\/tr>\n \n 3<\/td>\n H3<\/sub>PO4<\/sub><\/td>\n 75<\/td>\n RT<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n<\/tr>\n \n 75<\/td>\n 80<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n<\/tr>\n \n 40<\/td>\n 100<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u0394<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n<\/tr>\n \n 4<\/td>\n HNO3<\/sub><\/td>\n 20<\/td>\n RT<\/td>\n \u221a<\/td>\n \u0394<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u0394<\/td>\n \u221a<\/td>\n \u0394<\/td>\n<\/tr>\n \n 15<\/td>\n 85<\/td>\n \u25cb<\/td>\n \u0394<\/td>\n \u221a<\/td>\n \u25cb<\/td>\n \u0394<\/td>\n \u25cb<\/td>\n \u0394<\/td>\n<\/tr>\n \n 5<\/td>\n HF<\/td>\n 10<\/td>\n RT<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n<\/tr>\n \n 5<\/td>\n 80<\/td>\n \u25cb<\/td>\n \u25cb<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u25cb<\/td>\n \u25cb<\/td>\n \u25cb<\/td>\n<\/tr>\n \n 6<\/td>\n NaOH<\/td>\n 40<\/td>\n RT<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n<\/tr>\n \n 40<\/td>\n 100<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u0394<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n<\/tr>\n \n 7<\/td>\n HNO3<\/sub>+HF<\/td>\n 15%+5%<\/td>\n 80<\/td>\n \u25cb<\/td>\n \u0394<\/td>\n \u25cb<\/td>\n \u25cb<\/td>\n \u0394<\/td>\n \u25cb<\/td>\n \u0394<\/td>\n<\/tr>\n \n 8<\/td>\n C2<\/sub>H5<\/sub>OH<\/td>\n 96<\/td>\n RT<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n<\/tr>\n \n 96<\/td>\n 80<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n<\/tr>\n \n 9<\/td>\n NaClO3<\/td>\n 100<\/td>\n 80<\/td>\n \u221a<\/td>\n \u0394<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u0394<\/td>\n \u221a<\/td>\n \u0394<\/td>\n<\/tr>\n \n 10<\/td>\n NaClO<\/td>\n CL12.5%<\/td>\n RT<\/td>\n \u221a<\/td>\n \u0394<\/td>\n \u25cb<\/td>\n \u25cb<\/td>\n \u0394<\/td>\n \u221a<\/td>\n \u0394<\/td>\n<\/tr>\n \n 80<\/td>\n \u221a<\/td>\n \u0394<\/td>\n \u0394<\/td>\n \u0394<\/td>\n \u0394<\/td>\n \u221a<\/td>\n \u0394<\/td>\n<\/tr>\n \n 11<\/td>\n Wear resistant the seriflux (particle \u03a6\u226410mm)<\/td>\n 0-100<\/td>\n Room temperature<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u0394<\/td>\n \u0394<\/td>\n \u221a<\/td>\n \u221a<\/td>\n \u221a<\/td>\n<\/tr>\n \n Note: \u221a Stability \u25cb Common \u25b3 Instability<\/strong>
\nThis specification of rubber lining shown in the table are considered standards and if any other standard of specification please contact ZhongHaiWei<\/span><\/strong><\/a>.<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<\/div>