Sisebenzisa amakhukhi ukuthuthukisa ulwazi lwakho. Ngokuqhubeka nokuphequlula leli sayithi, uyavumelana nokusebenzisa kwethu amakhukhi. Ulwazi Olwengeziwe.
Izici zokugqoka zalezi zingubo zihlukile komunye nomunye, kodwa ziphakeme kunezinsimbi ezivamile ze-austenitic, insimbi eqinile, nanoma yiluphi olunye uhlobo lwensimbi.
Okuguquguqukayo okuningana kunquma ubude bokuguga kwamalayini ohlelweni ngalunye. Ngakho-ke, amakhasimende akhetha ukufakwa kwe-Trimay ayelulekwa ukuthi enze kanjalo ngemva kokucabangela lezi zinketho ezilandelayo:
Imbondela enzima ifanele indawo edlayo kanye nezinga lokushisa eliphezulu futhi ikhiqizwa kusetshenziswa inhlanganisela eyingqayizivele yama-carbides akha i-matrix ecwebezelayo yekristalu. I-Plating eyinhlanganisela ye-T161 ingakwazi ukuphatha amazinga okushisa afika ku-650°C noma ku-1202°F futhi inokumelana kangcono nokugqokwa kune-Trimay chrome plating. I-T161 Composite Jacket ifaneleka kakhulu ekugqokeni okuphezulu okunomthelela oqondile omaphakathi kuya kokuphakathi.
Ngenxa yokumelana nokugqoka okuphezulu kanye nekhono lokudonsa ukushaqeka, i-chromium plating isetshenziswa kakhulu embonini. I-Trimay inikeza izinhlobo ezintathu zokusika kwe-chrome: i-T138, T156 ne-T157. Zinhle kakhulu ekusebenzeni ngokumaphakathi ukuya kokusindayo futhi zingamunca ukukhanya kuye kumthelela omaphakathi.
I-Trimay tungsten linings inezindawo ezimelana kakhulu nokugqokwa kwanoma iyiphi i-lining. Okuqukethwe kwabo kwe-matrix kungaphezulu nangaphansi kwama-50%. Umehluko omkhulu phakathi kwalezi zinhlobo ezimbili ukuthi i-tungsten engu-50%+ itholakala kuphela njengejazi elilodwa, kuyilapho izinhlobo ze-tungsten ezingaphansi kuka-50% zinikeza amajazi amathathu. Irabha ye-Trimay tungsten nayo idonsa ukushaqeka kangcono kunezinye izinhlobo ezimbili.
Irabha ye-T171* boron carbide iyirabha entsha ka-Trimay. Le mikhiqizo yakhiwe ngabakwa-Trimay ngokubambisana ne-NanoSteel, inkampani yezinto eziphambili. I-Nano iyingxubevange ye-submicron boron carbide enokumelana nokugqokwa okuphakeme kakhulu kune-tungsten hardfacing ngezindleko eziphansi kakhulu. I-Trimay T171* ifaneleka kakhulu ekugqokeni okuqinile kuya kokweqisayo okunomthelela oqondile omaphakathi.
I-T171* yenziwe ngensimbi esekwe ku-iron futhi iqukethe ikhemistry ye-Trimay eyingqayizivele, enegunya lobunikazi be-sub-micron micron. Le pad ifanele izimo ezimbi kakhulu. I-Trimay ibambisene ne-The NanoSteel Company, Inc., umholi womhlaba wonke ekukhiqizweni kwama-nanomaterials kanye ne-R&D, ukuthuthukisa imbondela ye-T171*. I-Trimay ibambisene ne-The NanoSteel Company, Inc., umholi womhlaba wonke ekukhiqizweni kwama-nanomaterials kanye ne-R&D, ukuthuthukisa imbondela ye-T171*.I-Trimay ibambisene ne-The NanoSteel Company, Inc., umholi womhlaba ekukhiqizeni nasekucwaningeni nasekuthuthukisweni kwama-nanomaterials, ukuthuthukisa ukunamathela kwe-T171*.I-Trimay ibambisene ne-NanoSteel Company, Inc., umholi womhlaba ekukhiqizeni nasekucwaningeni nasekuthuthukisweni kwama-nanomaterials, ukuthuthukisa ukunamathela kwe-T171*. Inekhemikhali enhle kakhulu yokwenza ingilazi ehlinzeka ngezinga eliphezulu le-supercooling ngesikhathi se-soldering. Lokhu kunomthelela omuhle kakhulu we-nanocrystalline microstructure enikeza i-T171* ubulukhuni obuphakeme uma kuqhathaniswa nezixazululo ezivamile ze-carbide.
Imbondela ye-T171* inobunzima obungu-68–71 HRc. Ekubekeni iphasi eyodwa, ihlinzeka ngobulukhuni obuhle kakhulu kubo bonke ubude be-deposition kusuka endaweni eshiselayo, inikeze ukuvikeleka okuphelele kokubeka. Lobu bunzima bugcinwa ngisho namazinga okushisa aphezulu. Ama-photomicrographs angezansi akhombisa ukuthi ubulukhuni obukhulu bufinyelelwa kanjani ngaphakathi kwesixhumi esibonakalayo esimbondelayo. Kuma-photomicrographs, amanani okuqina akalwa ngemuva kwembondela yephasi eyodwa ye-T171* ku-44W/300W yeshidi lensimbi elithambile elingaphansi.
I-T171* pad inikeza ukumelana okuhle kakhulu ekugqokeni okunzima uma ushelela ezimeni zokusebenza ezinzima. Ingadalwa kuze kufike ku-1/2 intshi yogqinsi lwe-intshi kumaphasi amabili uma kudingeka kuzo zonke izendlalelo. Lokhu kunikeza ukumelana ne-abrasion kufika ku-0.08-0.10g (±0.03) ukuncipha kwesisindo ekuhlolweni kokuhuzuka kwe-ASTM G65-04.
Imbondela ye-T171* inokuqina okuhle kakhulu okulingana nepuleti le-Brinell Q&T elingu-400 futhi lokhu kungenxa yokwakheka kwe-in-weld yenani eliphezulu lezigaba ze-borocarbide ezicwengiwe eziyinkimbinkimbi, ezizungezwe izigaba ze-ductile ferrite. Imbondela ye-T171* inokuqina okuhle kakhulu okulingana nepuleti le-Brinell Q&T elingu-400 futhi lokhu kungenxa yokwakheka kwe-in-weld yenani eliphezulu lezigaba ze-borocarbide ezicwengiwe eziyinkimbinkimbi, ezizungezwe izigaba ze-ductile ferrite. Наплавка T171* обладает превосходной ударной вязкостью, эквивалентной пластине Q&T 400 for Бриголю, благодаря образования вварский орокарбидных фаз, окруженных пластичными ферритовыми фазами. Ingxubevange ye-T171* inokuqina komthelela okuhle kakhulu, okulingana nepuleti le-Q&T 400 Brinell, ngenxa yokwakheka kokushisela inombolo enkulu yezigaba eziyinkimbinkimbi ze-borocarbide ezungezwe izigaba ze-ductile ferrite. T171* 堆焊层具有相当于400 Brinell Q&T 板的出色韧性，這是由于在焊缝中形成了大量精炼的韧杌硼，复杌杌种着炼的复杌杌硼生民。素体相包围. I-T171* weld layer inokuqina kombala okulingana ne-400 Brinell Q&T plate, okubangelwa ukwakheka kwenani elikhulu lesigaba se-boron carbide ecwengiwe emshinini wokushisela, esizungezwe ukuqina kwensimbi. Наплавка T171* обладает превосходной ударной вязкостью, эквивалентной пластине Q&T 400 for Бриголю, благодаря образовалентной пластине Q&T 400 for Бриголю, благодаря образовалентной пластине ной комплексной боркарбидной фазы, окруженной пластичной ферритной фазой. I-T171* weld inokuqina komthelela okuhle kakhulu, okulingana nepuleti le-Q&T 400 Brinell, ngenxa yokwakheka kokushisela inani elikhulu lesigaba se-borocarbide esicwengekile esizungezwe isigaba se-ductile ferrite.Isigaba se-borocarbide simanziswa ngokugcwele yi-matrix futhi sivimbela ukubola, ukukhipha ngaphambi kwesikhathi kanye nokuqhekeka. Imvelo ethuthukisiwe yesigaba se-borocarbide inciphisa amaphuzu okugxilisa ingqondo, kuyilapho i-matrix yepulasitiki inikeza ukunyakaza okuhle kanye ne-crack bridging, okuholela ekuqineni komthelela okungcono.
Amapuleti e-T171* ayatholakala njengezixazululo zepuleti le-wear ye-alloy ephansi ne-carbon steel substrates, kanti amapuleti e-T171* agqoka asebenzisa inqubo yokushisela ye-arc engaphansi kwamanzi ye-Trimay. Imbondela ingasikwa futhi yenziwe ngobukhulu obuhlukahlukene, njengembondela ye-chromium carbide. Ukwakhiwa noma ukugoqa kwenziwa emshinini wokugoba, futhi ukusika kwenziwa nge-plasma-arc noma izindlela zejethi zamanzi, kodwa hhayi ngokusika ilangabi. Ubukhulu nendawo yokushisela (kungaba ngaphakathi noma ngaphandle kobubanzi) bunquma ukwakheka kwembondela. Ngokusebenza okunembayo okuphansi, i-carbon arc gouging ingasetshenziswa ukususa okokusebenza kwe-T171*. Imbondela ye-T171* ayenziwanga ngomshini futhi ingaba yi-EDM noma iphansi ngokuceliwe. I-Fillet welding noma i-riveting iyindlela evamile yokufaka amapuleti okugqoka i-T171 *, angenziwa enziwe noma aboshwe ukuze afakwe. Izinsimbi zokugqoka amapuleti kufanele zimbozwe ngocingo olukhethekile lwe-Trimay T171* ukuqinisekisa ukuguga.
I-Trimay idizayina futhi ikhiqize izindwangu zokugqokwa zekhwalithi ephezulu kakhulu zamakhasimende afuna ukukhulisa ukusebenza kahle ngokwandisa impilo yezinto zokusebenza, izingxenye kanye namapayipi angaphansi kokuguga okukhulu. I-Trimay ifinyelela izindinganiso zayo zekhwalithi ephezulu ngocwaningo nentuthuko, izinkampani ezisebenzisana nabo nabahlinzeki bempahla abakhethekile, kanye nokuhlola kwayo kanye nokwenza kahle inqubo.
Lolu lwazi lutholiwe, lwaqinisekiswa futhi lwashintshwa kusukela ezintweni ezinikezwe i-Trimay Wear Plate Ltd.
I-Trimay wear plate. (Agasti 22, 2018). Izinto zokumboza zezinhlelo zokusebenza ezingagugi. I-AZOM. Ibuyiselwe ngomhla ka-Agasti 18, 2022 kusukela ku-https://www.azom.com/article.aspx?ArticleID=5634.
I-Trimay wear plate. "Izinto zokumboza zezinhlelo zokusebenza ezingagugi". I-AZOM.Agasti 18, 2022.Agasti 18, 2022.
I-Trimay wear plate. "Izinto zokumboza zezinhlelo zokusebenza ezingagugi". I-AZOM. https://www.azom.com/article.aspx?ArticleID=5634. (Kusukela ngomhla ka-Agasti 18, 2022).
I-Trimay wear plate. 2018. Izinto zokumboza zezicelo ezingagugi. I-AZoM, ifinyelelwe ngomhla ka-18 Agasti 2022, https://www.azom.com/article.aspx?ArticleID=5634.
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