Electronics siamna, PV lamination, leh explosive environment-ah te chuan static discharge hi hlauhawm tak a ni. Spark hian microchip a tichhia thei a, leivut a kang thei a, hmanrua a tichhe thei bawk. PTFE high-temperature fabric , heat resistance leh non-stick atan a tha hle nachungin, insulator tha tak a ni – a dissipate aiin static charge a dahkhawm zawk.
A solution chu anti-static treatment a ni. Aokai PTFE hian anti-static PTFE fabric chu primary method pahnih hmangin a pe a, chubakah supplementary surface coating a pe bawk. He thuziak hian PTFE fabric hian anti-static treatment a mamawh chhan te, treatment te hnathawh dan te, static dissipation hnuaia principle te a sawifiah a ni.
PTFE High-Temperature Fabric hian Anti-Static Treatment a mamawh chhan
PTFE high-temperature fabric hi fiberglass puan polytetrafluoroethylene (PTFE) hmanga impregnated a ni a, hei hian insulator tha tak angin hna a thawk a, ultra-high surface resistance (a tlangpuiin 10⊃1;5–10⊃1;8 Ω) a nei bawk. Production, conveying leh demolding laiin friction leh peeling te hian awlsam takin static electricity a siam chhuak a, a khawlkhawm bawk.
Static accumulation avanga hlauhawmna:
Sparks – gas kang thei, leivut, emaw solvent emaw a kang thei
Electronic component tihchhiat – ESD hian microchip leh PCB te a tichhia a
Material cling – film, fiber, leh powder te chu lei chung lamah an innghat thin
Operator shocks – himna atana hlauhawm leh nuam lo
Chuvangin, anti-static working environment-a him taka hman theih turin fabric chu static dissipative emaw conductive property neia endow turin special treatment a ngai a ni.
Tunah hian hei hi mainstream treatment ber a ni a, fabric surface zawng zawngah uniform anti-static performance a pe chhuak thei a ni.
1. Thil tih dan tur
Conductive fillers proportion bik chu PTFE impregnating liquid-ah inang tlangin blend a ni a, chu chu standard impregnation, drying, leh sintering procedure hmangin a zui a ni. Fillers te hi PTFE coating chhung zawngah embedded an ni a, conductive network an siam ta a ni.
2. Conductive filler hman tlanglawn tak tak
Conductive carbon black (a tam ber, a man tlawm ber) .
Carbon nanotubes (performance sang zawk, man to zawk) 1.1.
Metallic powder (tangkarua, dar, etc.) hmanga siam a ni.
Metal oxide (antimony-a doped tin oxide, etc.) te chu a awm thei lo.
Weave-independent – fiberglass substrate-a weave structure-in a nghawng loh
Core feature pathum – high-temperature resistance, non-stick property, leh static dissipation te chu a balance a ni
Permanent – lei chunglam coating ni lo; a chhe lo
4. Performance atanga chhuak
Treatment hnuah, puan chunglam resistivity chu 105–109 Ω chhungah stably control theih a ni a, industrial scenario tam zawk (electronics, explosive environments, PV)-a anti-static requirements a tlin a ni.
Conductive filaments (metal wire, carbon fiber, etc.) te chu PTFE coating hman hmain fiberglass substrate-ah hun bituk chhungin an inthuam a, chu chuan embedded conductive grid a siam a ni.
1. Key processing ngaihtuah tur
PTFE coating hian conductive fibers te chu a khuh kim thei a, conductive pathways te pawh a insulate thei bawk. Chuvangin, buffing emaw sanding emaw hi puan chunglama conductive fibers tlem tal pholan nan hman a ni tlangpui a, a nih loh leh grounding contact area te chu full coating coverage awm lovin reserved a ni bawk.
2. A thatna te
Metal emaw carbon fiber emaw hmanga siam conductive path te hian current phur theihna chak tak an nei a
Static charge lian tak tak rang taka drainage ngai hnathawhna hmun atan a tha hle
Coating atanga innghat lo physical ground path a pe
3. A that lohna
Coating doping aiin a man a to zawk
Fibers exposed hian surface smoothness a nghawng thei
Thil siam dan buaithlak zawk
Supplementary Method – Surface Coating (Temperature sang zawka hman tur a ni lo) .
Organic anti-static agent layer te tak te chu PTFE puan siam zawh tawh chungah an khuh a.
1. A thatna te
Operation awlsam tak a ni
Small-scale application atan chuan man tlawm zawk
2. A that lohna (engvangin nge mainstream loh ang) .
Anti-static agent tam zawk hi surfactant, heat resistance tha lo (a tlangpuiin <150°C) an ni.
abrasion shedding leh performance failure nei thei Hun rei tak chhunga high-temperature exposure hnuaia
Permanent ni lo – hman, tihfai, lumna avanga a chhe vek
Thutlukna: Hetiang method hi temperature sang tak PTFE fabric hmanna atan chuan a tha lo. Anti-static PTFE fabric i mamawh chuan coating doping emaw substrate weaving emaw thlang rawh.
Core Anti-Static hnathawh dan tur
A chunga kan sawi zawng zawng hian a bulpui ber mechanism an nei vek a, chu chu static charges te tan controlled leakage channel siam a, chu chu generation a nih veleh a drain nghal theih nan leh hazardous charge accumulation ven nan a ni.
1. Conductive network siam dan (percolation threshold) 1. A rilru a hah lutuk chuan a rilru a buai em em a.
Conductive filler (carbon black particle ang chi) te hian PTFE coating-a critical concentration an thlen chuan particle te chu an inzawm emaw, an inhnaih hle emaw a, 3D conductive network kal zel tur a siam a ni. Hei hi tia sawi a ni percolation threshold . He conductive grid hian PTFE thianghlim insulating characteristic chu a thlak danglam a ni.
2. Charge conduction leh dissipation te
Surface friction atanga siam static electricity chu local-ah isolation-ah a pung khawm tawh lo. Chu ai chuan charge te chu conductive network-ah rang takin a darh a, grounding hmangin him takin a chhuak thin – discharge pipeline size dik tak 'charge storage pool.'-a connect nen a inang.
3. Surface resistance dik taka tihfel
Conductive fillers dosage siamrem hian anti-static range (105–10⊃1;⊃1; Ω) chhungah surface resistance chu a stabilized a ni . He resistance value hi chu:
a hniam tawk Static tha taka drain theih turin
a sang tawk Direct short circuit leh hlauhawm lo awm thei tur venna atan
Material resistance hmanga static charges controlled consumption a siam thei
Critical requirement: Practical use lai hian grounding rintlak a la ngai reng a ni. Anti-static fabric hian kawng a pe a, mahse grounding hian circuit a ti zo thung.
Thupui – Anti-Static PTFE Fabric dik tak thlan dan
Tihdan
Surface Resistivity a awm thei
A chhe thei lo
Heat Resistance a ni
Best For
Coating doping hmanga siam a ni
105–109 Ω a ni
A tha hle (permanent) .
260°C thleng a ni
General industrial, electronics, PV hmanga siam a ni
Substrate hmanga siam a ni
105–109 Ω a ni
A tha hle (permanent) .
260°C thleng a ni
Current sang tak static drainage, grounding rit tak a awm bawk
Surface coating a awm bawk
106–109 Ω a ni
Rethei (a chhe tawh) .
A tlangpuiin <150°C a ni
Temperature hniam, hun rei lote chhunga hman (a tha lo) .
Aokai PTFE hian coating doping method hmangin anti-static PTFE fabric chu standard angin a pe a, substrate weaving pawh specialized application atan a awm bawk. I mamawh dan azirin surface resistivity bik (eg, 106 Ω, 108 Ω) kan target thei a ni. Technical data sheet leh sample lak duh tan min rawn biak theih reng e.
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