{"id":1513605,"date":"2020-12-22T16:40:38","date_gmt":"2020-12-22T08:40:38","guid":{"rendered":"https:\/\/www.bihec.com\/rheotest\/?p=1513605"},"modified":"2024-12-05T14:05:57","modified_gmt":"2024-12-05T06:05:57","slug":"%e5%be%b7%e5%9b%bdrheotest-%e6%97%8b%e8%bd%ac%e6%b5%81%e5%8f%98%e4%bb%aa%ef%bc%8c%e9%94%a5%e6%9d%bf%e6%b5%81%e5%8f%98%e4%bb%aa%e5%ba%94%e7%94%a8-%e8%81%9a%e5%90%88%e7%89%a9%e3%80%81%e6%b6%82%e6%96%99","status":"publish","type":"post","link":"https:\/\/www.bihec.com\/rheotest\/%e5%be%b7%e5%9b%bdrheotest-%e6%97%8b%e8%bd%ac%e6%b5%81%e5%8f%98%e4%bb%aa%ef%bc%8c%e9%94%a5%e6%9d%bf%e6%b5%81%e5%8f%98%e4%bb%aa%e5%ba%94%e7%94%a8-%e8%81%9a%e5%90%88%e7%89%a9%e3%80%81%e6%b6%82%e6%96%99\/","title":{"rendered":"\u5fb7\u56fdRHEOTEST \u805a\u5408\u7269\u3001\u6d82\u6599\u3001\u6ca5\u9752\u3001\u5efa\u7b51\u6750\u6599\u3001\u65cb\u8f6c\u6d41\u53d8\u4eea\uff0c\u9525\u677f\u6d41\u53d8\u4eea"},"content":{"rendered":"
\u5fb7\u56fdRHEOTEST<\/a> \u805a\u5408\u7269\u3001\u6d82\u6599\u3001\u6ca5\u9752\u3001\u5efa\u7b51\u6750\u6599\u3001\u65cb\u8f6c\u6d41\u53d8\u4eea<\/a>\uff0c\u9525\u677f\u6d41\u53d8\u4eea<\/a><\/p>\n <\/p>\n \u5e94\u7528\uff1a<\/strong> \u4f18\u52bf\u548c\u7279\u70b9\uff1a<\/strong> \u63d0\u4f9b7\u79cd\u4e0d\u540c\u7684\u5706\u7b52\u6d4b\u91cf\u7cfb\u7edf \u63d0\u4f9b8\u79cd\u4e0d\u540c\u7684\u6d4b\u91cf\u9525 \u591a\u79cd\u5f02\u5f62\u8f6c\u5b50 \u722a\u5f0f\u8f6c\u5b50\u5faa\u73af\u6d4b\u91cf\u5ba4 <\/p>\n \u5fb7\u56fdRHEOTEST\u516c\u53f8\u5177\u670980\u591a\u5e74\u7684\u5386\u53f2\uff0c\u662f\u7c98\u5ea6\u8ba1<\/a>\u548c\u6d41\u53d8\u4eea<\/a>\u884c\u4e1a\u7684\u4f7c\u4f7c\u8005\uff0c\u5176\u4ee5\u89e3\u51b3\u6d41\u53d8\u5b66\u65b9\u9762\u7684\u590d\u6742\u6d4b\u91cf\u800c\u8457\u79f0\u3002\u56fd\u9645DIN(NAB)\u6807\u51c6\u59d4\u5458\u4f1a\u548c\u5fb7\u610f\u5fd7Forschungsgesellschaft f\u00fcr Oberfl\u00e4chentechnologie e.V. (DFO)\u6210\u5458\u3002<\/p>\n <\/p>\n <\/p>\n \u4e3b\u8981\u4ea7\u54c1\uff1a Falling ball viscometer H\u00d6PPLER\u00ae KF 3.2\u843d\u7403\u5f0f\u7c98\u5ea6\u8ba1_2082.1.00001<\/a> \u5fb7\u56fdRHEOTEST \u805a\u5408\u7269\u3001\u6d82\u6599\u3001\u6ca5\u9752\u3001\u5efa\u7b51\u6750\u6599\u3001\u65cb\u8f6c\u6d41\u53d8\u4eea\uff0c\u9525\u677f\u6d41\u53d8\u4eea \u5e94\u7528\uff1a \u6cb9\u6f06\u3001\u6e05\u6f06\u3001\u6d82\u6599 \u805a\u5408\u7269\u3001\u6da6\u6ed1\u5242 \u836f\u54c1\u548c\u5316\u5986\u54c1 \u98df\u54c1\u5de5\u4e1a \u5efa\u7b51\u6750\u6599\u53ca\u67d3\u6599 \u6ca5\u9752\u548c\u6ca5\u9752\u7c98\u5408\u5242 \u4f18\u52bf <\/p>\n","protected":false},"author":9,"featured_media":1513301,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":[],"categories":[12,179,68,69,87],"tags":[20,170,17,56,53,137],"_links":{"self":[{"href":"https:\/\/www.bihec.com\/rheotest\/wp-json\/wp\/v2\/posts\/1513605"}],"collection":[{"href":"https:\/\/www.bihec.com\/rheotest\/wp-json\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/www.bihec.com\/rheotest\/wp-json\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/www.bihec.com\/rheotest\/wp-json\/wp\/v2\/users\/9"}],"replies":[{"embeddable":true,"href":"https:\/\/www.bihec.com\/rheotest\/wp-json\/wp\/v2\/comments?post=1513605"}],"version-history":[{"count":2,"href":"https:\/\/www.bihec.com\/rheotest\/wp-json\/wp\/v2\/posts\/1513605\/revisions"}],"predecessor-version":[{"id":1513655,"href":"https:\/\/www.bihec.com\/rheotest\/wp-json\/wp\/v2\/posts\/1513605\/revisions\/1513655"}],"wp:featuredmedia":[{"embeddable":true,"href":"https:\/\/www.bihec.com\/rheotest\/wp-json\/wp\/v2\/media\/1513301"}],"wp:attachment":[{"href":"https:\/\/www.bihec.com\/rheotest\/wp-json\/wp\/v2\/media?parent=1513605"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/www.bihec.com\/rheotest\/wp-json\/wp\/v2\/categories?post=1513605"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/www.bihec.com\/rheotest\/wp-json\/wp\/v2\/tags?post=1513605"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}
\n\u6cb9\u6f06\u3001\u6e05\u6f06\u3001\u6d82\u6599
\n\u805a\u5408\u7269\u3001\u6da6\u6ed1\u5242
\n\u836f\u54c1\u548c\u5316\u5986\u54c1
\n\u98df\u54c1\u5de5\u4e1a
\n\u5efa\u7b51\u6750\u6599\u53ca\u67d3\u6599
\n\u6ca5\u9752\u548c\u6ca5\u9752\u7c98\u5408\u5242<\/p>\n
\n\u975e\u5e38\u6709\u5438\u5f15\u529b\u7684\u6027\u4ef7\u6bd4
\n\u901f\u5ea6\u63a7\u5236\uff08CR\uff09\uff0c\u626d\u77e9\u63a7\u5236\uff08CS\uff09\u548c\u632f\u8361\u6d4b\u6d4b\uff08 OSC\uff09
\n\u7528\u6237\u53cb\u597d\u7684\u8f6f\u4ef6\u7528\u4e8e\u5404\u79cd\u68c0\u6d4b\u7684\u63a7\u5236\uff0c\u6267\u884c\u548c\u5206\u6790
\n\u5927\u8303\u56f4\u7684\u6d4b\u91cf\u7cfb\u7edf\uff1a\u540c\u8f74\uff0c\u9525\/\u677f\uff0c\u677f\/\u677f\uff0c\u7528\u4e8e\u5404\u79cd\u5e94\u7528\u6a21\u5757\u5316\u7ed3\u6784\u548c\u5feb\u901f\u66f4\u6362\u6d4b\u91cf\u7cfb\u7edf
\n\u6e29\u5ea6\u8303\u56f4\uff1a-60\u2103-375\u2103<\/strong>
\n\u526a\u5207\u901f\u7387\uff08\u6d41\u52a8\u66f2\u7ebf\uff09\u6d4b\u91cf\u7c98\u5ea6
\n\u65f6 \u95f4 (hysteris\u66f2 \u7ebf)\u6d4b\u91cf\u7c98\u5ea6
\n\u751f\u4ea7\u3001\u8fd0\u8f93\u548c\u52a0\u5de5\u8fc7\u7a0b\u4e2d\u6d41\u52a8\u6027\u80fd\u7684\u8868\u5f81
\n\u63a7\u5236\u526a\u5207\u5e94\u529b\u7684\u6d4b\u91cf\u6a21\u5f0fCS-tests
\n\u526a\u5207\u5e94\u529b\uff08\u6d41\u52a8\u66f2\u7ebf\uff09\u6d4b\u91cf\u7c98\u5ea6
\n\u6d4b\u91cf\u5c48\u670d\u70b9
\n\u7c98\u5f39\u6027\u80fd\uff08\u8815\u53d8\u6062\u590d\u5b9e\u9a8c\uff09<\/p>\n
\n\u5de5\u4f5c\u6e29\u5ea6\u8303\u56f4\uff1a – 60\u00b0C …+200\u2103
\n\u901a\u8fc7\u6db2\u4f53\u6e29\u63a7\u5668\/\u6052\u6e29\u5668\u7684\u6e29\u5ea6\u63a7\u5236
\n\u7c92\u5f84\u53ef\u8fbe5.2\u6beb\u7c73
\n\u5efa\u8bae\u7c98\u5ea6\u8303\u56f4\uff1a3\u6beb\u5e15\u79d2… 100000\u6beb\u5e15\u00b7\u79d2
\n\u526a\u5207\u901f\u7387\u8303\u56f4\uff1a0.04 \u79d2-1 …6700\u79d2-1<\/p>\n
\n\u63d0\u4f9b5\u79cd\u4e0d\u540c\u7684\u6d4b\u91cf\u677f
\n\u6d4b\u91cf\u8303\u56f4\uff1a1 …1000000000\u6beb\u5e15\u00b7\u79d2\u00b7s\u4ee5\u4e0b
\n\u526a\u5207\u901f\u7387\u8303\u56f4\uff1a0.12 \u79d2-1… 20000\u79d2-1
\n\u5de5\u4f5c\u6e29\u5ea6\u8303\u56f4\uff1a – 30\u00b0C …+300\u2103
\n\u6e29\u5ea6\u63a7\u5236
\n\u6db2\u4f53\u6052\u6e29\/\u4f4e\u6e29\u6052\u6e29\u5668\uff08-30\u00b0C …+ 200\u00b0C\uff09
\n\u5e15\u5c14\u5e16\u63a7\u5236\uff08-10\u00b0C …+ 150\u00b0C\uff09
\n\u7535\u52a0\u70ed\uff08+ 35\u00b0C …+300\u00b0C\uff09<\/p>\n
\n\u591a\u79cd\u8f6c\u5b50\u53f6\u7247
\n\u5de5\u4f5c\u6e29\u5ea6\u8303\u56f4\uff1a – 60\u00b0C …+200\u2103
\n\u901a\u8fc7\u6db2\u4f53\u6e29\u63a7\u5668\/\u6052\u6e29\u5668\u63a7\u6e29
\n\u6d4b\u91cf\u8303\u56f4\uff1a20… 100000\u6beb\u5e15\u00b7\u79d2\u00b7s<\/p>\n
\n\u9002\u7528\u4e8e\u65b0\u62cc\u6df7\u51dd\u571f\uff0c\u6c34\u6ce5\u6ce5\u6d46
\n\u7b49\u6613\u6c89\u79ef\u4ea7\u54c1
\n\u51a0\u578b\u4f20\u611f\u5668\u548c\u526a\u5207\u677f
\n\u9002\u7528\u4e8e\u77f3\u818f\u6df7\u5408\u7269<\/p>\n
\n\u6d41\u53d8\u4eea
\n\u6bdb\u7ec6\u7ba1\u7c98\u5ea6\u8ba1<\/a>
\n\u843d\u7403\u7c98\u5ea6\u8ba1<\/a>
\n\u7403\u538b\u7c98\u5ea6\u8ba1<\/a>
\nRN 4.1
\nRN 4.3<\/a>
\nLK 2.2<\/a>
\nLKD 1.1
\nKD 3.1<\/a>
\nKF 3.2
\nPR 2
\nPK 1.1
\nPK 3.1
\nPR 4.1<\/p>\n
\nRHEOTEST RN 4.1\u5b9e\u9a8c\u5ba4\u6d41\u53d8\u4eea_RHEOTEST RN 4.1<\/a>
\nRotor S1\u8f6c\u5b50_Rotor S1<\/a>
\nMeasuring cup G1\u91cf\u676f_Measuring cup G1<\/a>
\nTemperature control vessel G\u63a7\u5236\u5668_vessel G<\/a>
\nCryostate\u4f4e\u6e29\u6052\u6e29\u5668_RA 8<\/a>
\nPC-driven rotary viscometer RHEOTEST RN4.1\u65cb\u8f6c\u7c98\u5ea6\u8ba1_3022.1.00001<\/a>
\nRotor S1 for measuring cup G1\u8f6c\u5b50S1_3021.2.33100<\/a>
\nMeasuring cup G1 for rotors S1,H1,H2,HS,F1andF2\u91cf\u676fG1_3021.2.33300<\/a>
\nTemperature control vessel G with Pt 100 for measuring cup G1\u6e29\u63a7\u5f0f\u91cf\u676f_3021.2.03000<\/a>
\nRheometer basic plate system\u57fa\u7840\u677f\u63a7\u5236\u7cfb\u7edf_3022.2.66000<\/a>
\nRHEOTEST cone K3 (diameter 36 mm; angle 1\u00b0)\u9525\u4f53_3021.2.53400<\/a>
\nRHEOTEST plate P4 (diameter 8 mm)\u63a7\u5236\u677f_3022.2.55100<\/a>
\nRHEOTEST\u00ae LKD 1.1 Laboratory Capillary Viscometer\u5b9e\u9a8c\u5ba4\u6bdb\u7ec6\u8840\u7ba1\u6d41\u53d8\u4eea_3055.1.00004<\/a>
\nRHEOTEST\u00ae LKD 1.1 Laboratory Capillary Viscometer\u5b9e\u9a8c\u5ba4\u6bdb\u7ec6\u8840\u7ba1\u6d41\u53d8\u4eea_3055.1.00005<\/a>
\ncapillary LV measuring range appr. 0,5 … 40 mPas\u6d41\u53d8\u4eea\u914d\u4ef6_3055.2.12200<\/a>
\ncapillary IV measuring range appr. 5 … 200 mPas\u6d41\u53d8\u4eea\u914d\u4ef6_3055.2.12300<\/a>
\ncapillary HV measuring range appr. 20 … 1600 mPas\u6d41\u53d8\u4eea\u914d\u4ef6_3055.2.12400<\/a>
\nRHEOTEST\u00ae LK 2.2 Laboratory Capillary Viscometer\u5b9e\u9a8c\u5ba4\u6bdb\u7ec6\u8840\u7ba1\u6d41\u53d8\u4eea_3051.1.00005<\/a>
\ncapillary 1 for viscosity range appr. 1 … 16 mPas\u6d41\u53d8\u4eea\u914d\u4ef6_3051.2.13100<\/a>
\ncapillary 2 for viscosity range appr. 5 … 102 mPas\u6d41\u53d8\u4eea\u914d\u4ef6_3051.2.13200<\/a>
\ncapillary 3 for viscosity range appr. 20 … 4×102 mPas\u6d41\u53d8\u4eea\u914d\u4ef6_3051.2.13300<\/a>
\ncapillary 4 for viscosity range appr. 100 … 2×103 mPas\u6d41\u53d8\u4eea\u914d\u4ef6_3051.2.13400<\/a>
\ncapillary 5 for viscosity range appr. 500 … 104 mPas\u6d41\u53d8\u4eea\u914d\u4ef6_3051.2.13500<\/a>
\nspecial capillary 6 for viscosity range appr. 1 … 10 mPas\u6d41\u53d8\u4eea\u914d\u4ef6_3051.2.12600<\/a>
\nspecial measuring cup\u91cf\u676f_3051.6.80000<\/a>
\nadditional software functions to convert dynamic viscosity\u8f6f\u4ef6_3052.2.24000<\/a>
\nprotection \/ dust cover for RHEOTEST\u00ae LK 2.2\u9632\u5c18\u7f69_3052.2.71000<\/a>
\nRHEOTEST\u00ae LK 2.2 Laboratory Capillary Viscometer\u5b9e\u9a8c\u5ba4\u6bdb\u7ec6\u8840\u7ba1\u6d41\u53d8\u4eea_3051.1.00004<\/a>
\nRotor HS\u4f4e\u7c98\u5ea6\u8f6c\u5b50_3021.2.31300<\/a>
\nPlate P1RHEOTEST \u5e73\u677f1_Plate P1<\/a>
\nCone K 3rheotest \u5706\u95253_Cone K 3<\/a>
\nH\u00d6PPLER\u00ae KD 3.1 Ball-Pressure Viscometer\u7403\u538b\u7c98\u5ea6\u8ba1_3011.1.00001<\/a>
\nglass-measuring vessel KZ 0,01 (1… 300 mPas)\u91cf\u676f_3011.2.10700<\/a>
\nglass-measuring vessel KZ 0,1 (10 … 3.000 mPas)\u91cf\u676f_3011.2.10800<\/a>
\nglass-measuring vessel KZ 1 (100 … 30.000 mPas)\u91cf\u676f_3011.2.10900<\/a>
\nglass-meas. vessel KZ 10 (1.000 … 300.000 mPas)\u91cf\u676f_3011.2.11000<\/a>
\nglass-meas. vessel KZ 100 (10.000 … 3.000.000 mPas)\u91cf\u676f_3011.2.11100<\/a>
\nmetal measuring vessel\u91d1\u5c5e\u91cf\u5668_3011.2.11200<\/a>
\nball rod I with glass ball \u00d8 16 for all glass measuring vessels\u73bb\u7483\u6d4b\u91cf\u5668\u76bf_3011.2.11400<\/a>
\nball rod II with metal ball \u00d8 12,7 for metal measuring vessel\u73bb\u7483\u6d4b\u91cf\u5668\u76bf_3011.2.11500<\/a>
\nball rod III with metal ball \u00d8 8 for metal measuring vessel\u73bb\u7483\u6d4b\u91cf\u5668\u76bf_3011.2.11600<\/a>
\ntaper rod with metal taper for metal measuring vessel\u9525\u5f62\u91d1\u5c5e\u91cf\u5668_3011.2.12000<\/a>
\nRotary Rheometer RHEOTEST\u00ae RN 4.1, CR-tests and CS-tests (shear rate test and shear stress test)\u6d41\u53d8\u4eea\u914d\u7f6e_3022.1.00002<\/a>
\nCR-tests, CS-tests and Oscillation-tests (OSC-tests)\u6d41\u53d8\u4eea\u914d\u7f6e_3022.1.00005<\/a>
\ncylinder measuring systems\u6c14\u7f38\u6d4b\u91cf\u7cfb\u7edf_3022.2.33100<\/a>
\ncylinder measuring systems\u6c14\u7f38\u6d4b\u91cf\u7cfb\u7edf_3022.2.35100<\/a>
\ncylinder measuring systems\u6c14\u7f38\u6d4b\u91cf\u7cfb\u7edf_3022.2.31100<\/a>
\ncylinder measuring systems\u6c14\u7f38\u6d4b\u91cf\u7cfb\u7edf_3022.2.31200<\/a>
\ncylinder measuring systems\u6c14\u7f38\u6d4b\u91cf\u7cfb\u7edf_3022.2.31300<\/a>
\ncylinder measuring systems\u6c14\u7f38\u6d4b\u91cf\u7cfb\u7edf_3022.2.31400<\/a>
\ncylinder measuring systems\u6c14\u7f38\u6d4b\u91cf\u7cfb\u7edf_3022.2.31500<\/a>
\ncylinder measuring systems\u6c14\u7f38\u6d4b\u91cf\u7cfb\u7edf_3022.2.36600<\/a>
\ncylinder measuring systems\u6c14\u7f38\u6d4b\u91cf\u7cfb\u7edf_3022.2.36700<\/a>
\ncylinder measuring systems\u6c14\u7f38\u6d4b\u91cf\u7cfb\u7edf_3022.2.36800<\/a>
\ncylinder measuring systems\u6c14\u7f38\u6d4b\u91cf\u7cfb\u7edf_3022.2.36900<\/a>
\nprofiled rotor S1 for measuring cup G1\u8f6c\u5b50_3022.2.33200<\/a>
\nprofiled rotor H2 for measuring cup G1\u8f6c\u5b50_3022.2.31600<\/a>
\nmeasuring cup G1 for rotors S1, H1, H2, HS, F1 and F2\u91cf\u676f_3022.2.33300<\/a>
\nmeasuring cup M1 for rotors S2, H3, H4 and F2\u91cf\u676f_3022.2.35300<\/a>
\nspecial plug HS to measuring cup G1\u585e\u5b50_3022 .2.33600<\/a>
\ntemp. control vessel M with Pt 100 for meas. cup M1\u6e29\u5ea6\u63a7\u5236\u5668_3021.2.05000<\/a>
\nsoftware to control liquid thermostate by the rheometer software\u6052\u6e29\u5668_3022.2.24000<\/a>
\nadapter coupling to fix Brookfield-spindles\u9002\u914d\u5668_3022.2.30100<\/a>
\nbasic plate systemtemperature controlled by liquid thermostate\u6db2\u4f53\u6052\u6e29\u63a7\u5236\u5668_3022.2.67000<\/a>
\nbasic plate, exchangeable\u57fa\u7840\u677f\u63a7\u5236\u7cfb\u7edf_3022.2.68200<\/a>
\nbasic plate, exchangeable\u57fa\u7840\u677f\u63a7\u5236\u7cfb\u7edf_3022.2.68100<\/a>
\nbasic plate system,temperature controlled by electrical heating\u6e29\u5ea6\u63a7\u5236\u5668_3022.2.52000<\/a>
\ncooling plate for passive cooling of electrical plate system\u51b7\u5374\u677f_3022.2.63500<\/a>
\ncone K1 (diameter 36mm; angle 0,3\u00b0)\u9525\u5f62\u6d4b\u91cf\u5668_3022.2.53300<\/a>
\ncone K2 (diameter 12 mm; angle 0,3\u00b0)\u9525\u5f62\u6d4b\u91cf\u5668_3022.2.55300<\/a>
\ncone K3 (diameter 36 mm; angle 1\u00b0)\u9525\u5f62\u6d4b\u91cf\u5668_3022.2.53400<\/a>
\ncone K4 (diameter 12 mm; angle 1\u00b0)\u9525\u5f62\u6d4b\u91cf\u5668_3022.2.55400<\/a>
\ncone K5 (diameter 36 mm; angle 5\u00b0)\u9525\u5f62\u6d4b\u91cf\u5668_3022.2.53500<\/a>
\ncone K6 (diameter 12 mm; angle 5\u00b0)\u9525\u5f62\u6d4b\u91cf\u5668_3022.2.55500<\/a>
\ncone K7 (diameter 70 mm; angle 1\u00b0)\u9525\u5f62\u6d4b\u91cf\u5668_3022.2.51100<\/a>
\ncone K8 (diameter 70mm; angle 0,3\u00b0)\u9525\u5f62\u6d4b\u91cf\u5668_3022.2.51400<\/a>
\nplate P1 (diameter 36 mm)\u91d1\u5c5e\u677f_3022.2.53200<\/a>
\nplate P2 (diameter 12 mm)\u91d1\u5c5e\u677f_3022.2.55200<\/a>
\nplate P3 (diameter 25 mm)\u91d1\u5c5e\u677f_3022.2.53100<\/a>
\nplate P4 (diameter 8 mm)\u91d1\u5c5e\u677f_3022.2.51200<\/a>
\nmeasuring system for fresh concrete and cement glue\u6d4b\u91cf\u7cfb\u7edf_3022.2.60000<\/a>
\nmeasuring system for plaster mix\u6d4b\u91cf\u7cfb\u7edf_3022.2.70000<\/a>
\nRHEOTEST\u00ae RN 4.3 DSR Bitumen Rheometer measuring place\u6ca5\u9752\u6d41\u53d8\u4eea_3022.0.20000<\/a>
\nset of rubber moulds for sample preparation, consists of 1 mold \u00f8 25mm, 1 mold \u00f8 8mm\u6a61\u80f6\u6a21\u5177_3022.2.69100<\/a>
\nset of trimming tools consists of 1 spatula and 1 stripping gripper\u4fee\u7406\u5de5\u5177_3022.2.69200<\/a>
\ncalibration kit standard\u6821\u51c6\u8bbe\u5907_3022.2.69300<\/a>
\nRHEOTEST\u00ae RN-SE Rotary Viscometer\u65cb\u8f6c\u7c98\u5ea6\u8ba1_3022.0.00001<\/a>
\nRHEOTEST\u00ae RN-SE Rotary Viscometer\u65cb\u8f6c\u7c98\u5ea6\u8ba1_3022.0.00002<\/a>
\nRHEOTEST\u00ae RN-SE Rotary Viscometer\u65cb\u8f6c\u7c98\u5ea6\u8ba1_3022.0.00003<\/a>
\nRHEOTEST\u00ae RN-SE Rotary Viscometer\u65cb\u8f6c\u7c98\u5ea6\u8ba1_3022.0.00004<\/a>
\nMeasuring head (drive) with electronic unit\u9a71\u52a8\u5355\u5143_3500.1.00001<\/a>
\nImmersion probe\u4fb5\u5165\u5f0f\u63a2\u5934_310.1.00005<\/a><\/p>\n