{"id":2583,"date":"2026-03-23T03:06:02","date_gmt":"2026-03-23T03:06:02","guid":{"rendered":"https:\/\/www.fuyao-quartz.com\/?p=2583"},"modified":"2026-03-23T03:13:51","modified_gmt":"2026-03-23T03:13:51","slug":"borosilikatove-vs-sodnovapenate-sklenene-desticky","status":"publish","type":"post","link":"https:\/\/www.fuyao-quartz.com\/cs\/borosilicate-vs-soda-lime-glass-wafers\/","title":{"rendered":"Borosilik\u00e1tov\u00e9 vs. sodnov\u00e1penat\u00e9 sklen\u011bn\u00e9 pl\u00e1tky: V\u00fdb\u011br spr\u00e1vn\u00e9ho substr\u00e1tu pro optick\u00e9 a MEMS aplikace"},"content":{"rendered":"

V p\u0159esn\u00e9 optice, mikrov\u00fdrob\u011b a v\u00fdzkumu MEMS je v\u00fdb\u011br spr\u00e1vn\u00fdch sklen\u011bn\u00fdch desti\u010dek rozhoduj\u00edc\u00ed pro zaji\u0161t\u011bn\u00ed mechanick\u00e9 stability, optick\u00e9ho v\u00fdkonu a spolehlivosti procesu. Dva nej\u010dast\u011bji pou\u017e\u00edvan\u00e9 materi\u00e1ly jsou desti\u010dky z borosilik\u00e1tov\u00e9ho skla a sodnov\u00e1penat\u00e9ho skla. A\u010dkoli jsou oba druhy k\u0159emi\u010dit\u00e9ho skla, jejich slo\u017een\u00ed, tepeln\u00e9 vlastnosti a mechanick\u00e9 charakteristiky se v\u00fdrazn\u011b li\u0161\u00ed, tak\u017ee ka\u017ed\u00fd z nich je vhodn\u00fd pro specifick\u00e9 aplikace.<\/p>\n\n\n\n

Tento \u010dl\u00e1nek p\u0159in\u00e1\u0161\u00ed v\u011bdecky podlo\u017een\u00e9 srovn\u00e1n\u00ed borosilik\u00e1tov\u00e9 a limon\u00e1dov\u00e9 oplatky<\/a>, s d\u016frazem na jejich vlastnosti, v\u00fdhody, omezen\u00ed a typick\u00e9 p\u0159\u00edpady pou\u017eit\u00ed.<\/p>\n\n\n\n

\"\"<\/figure>\n\n\n\n

Slo\u017een\u00ed materi\u00e1lu<\/strong><\/h2>\n\n\n\n
Majetek<\/th>Borosilik\u00e1tov\u00e9 sklo<\/th>Sklenice na sodovku a v\u00e1pno<\/th><\/tr><\/thead>
Hlavn\u00ed sou\u010d\u00e1sti<\/td>SiO\u2082 + B\u2082O\u2083 + Al\u2082O\u2083 + stopov\u00e9 mno\u017estv\u00ed alkalick\u00fdch oxid\u016f<\/td>SiO\u2082 + Na\u2082O + CaO<\/td><\/tr>
Obsah alk\u00e1li\u00ed<\/td>N\u00edzk\u00e1 (~4-5%)<\/td>Vysok\u00e1 (~12-15%)<\/td><\/tr>
Obsah b\u00f3ru<\/td>Vysok\u00e1 (~12-13%)<\/td>Minim\u00e1ln\u00ed nebo \u017e\u00e1dn\u00e9<\/td><\/tr>
D\u016fsledky<\/td>N\u00edzk\u00e1 tepeln\u00e1 rozta\u017enost, vysok\u00e1 chemick\u00e1 stabilita<\/td>Cenov\u011b v\u00fdhodn\u00e9, snadno zpracovateln\u00e9, st\u0159edn\u011b odoln\u00e9 v\u016f\u010di chemik\u00e1li\u00edm<\/td><\/tr><\/tbody><\/table><\/figure>\n\n\n\n

Borosilik\u00e1tov\u00e9 sklo<\/a> obsahuje oxid boru, kter\u00fd v\u00fdrazn\u011b sni\u017euje koeficient tepeln\u00e9 rozta\u017enosti a zvy\u0161uje chemickou odolnost. Sodnov\u00e1penat\u00e9 sklo slo\u017een\u00e9 p\u0159ev\u00e1\u017en\u011b z oxidu k\u0159emi\u010dit\u00e9ho, sody a v\u00e1pna je ekonomi\u010dt\u011bj\u0161\u00ed, ale m\u00e1 vy\u0161\u0161\u00ed tepelnou rozta\u017enost a st\u0159edn\u00ed chemickou odolnost.<\/p>\n\n\n\n

Tepeln\u00e9 a mechanick\u00e9 vlastnosti<\/strong><\/h2>\n\n\n\n
Majetek<\/th>Borosilik\u00e1tov\u00e9 sklo<\/th>Sklenice na sodovku a v\u00e1pno<\/th><\/tr><\/thead>
Koeficient tepeln\u00e9 rozta\u017enosti (CTE)<\/td>~3.3 \u00d7 10-\u2076 \/K<\/td>~9 \u00d7 10-\u2076 \/K<\/td><\/tr>
Odolnost proti teplotn\u00edm \u0161ok\u016fm<\/td>Vynikaj\u00edc\u00ed, odol\u00e1v\u00e1 zm\u011bn\u00e1m >150 \u00b0C<\/td>\u0160patn\u00fd, m\u016f\u017ee prasknout p\u0159i rozd\u00edlu ~30 \u00b0C<\/td><\/tr>
Bod m\u011bknut\u00ed<\/td>~820-860\u00b0C<\/td>~585-740\u00b0C<\/td><\/tr>
Mechanick\u00e1 pevnost<\/td>Relativn\u011b vysok\u00e1<\/td>M\u00edrn\u00e1<\/td><\/tr>
Rovinnost povrchu<\/td>Vysok\u00e1, vhodn\u00e1 pro tenkovrstv\u00e9 procesy<\/td>Dobr\u00fd, plovouc\u00ed proces zaji\u0161\u0165uje jednotnost<\/td><\/tr><\/tbody><\/table><\/figure>\n\n\n\n

Kl\u00ed\u010dov\u00fd poznatek:<\/strong> Borosilik\u00e1tov\u00e9 desti\u010dky jsou ide\u00e1ln\u00ed pro vysokoteplotn\u00ed procesy, tepeln\u00e9 cykly nebo p\u0159esn\u00e1 za\u0159\u00edzen\u00ed MEMS, zat\u00edmco sodnov\u00e1penat\u00e9 desti\u010dky jsou vhodn\u00e9 pro aplikace p\u0159i pokojov\u00e9 teplot\u011b nebo n\u00edzk\u00fdch teplot\u00e1ch, kde je prioritou hospod\u00e1rnost a optick\u00e1 \u010distota.<\/p>\n\n\n\n

Optick\u00fd v\u00fdkon<\/strong><\/h2>\n\n\n\n

Jak borosilik\u00e1tov\u00e9, tak sodnov\u00e1penat\u00e9 desti\u010dky maj\u00ed vysokou pr\u016fhlednost ve viditeln\u00e9m spektru, ale existuj\u00ed mezi nimi rozd\u00edly:<\/p>\n\n\n\n

    \n
  • Borosilik\u00e1tov\u00e9 desti\u010dky<\/strong>: M\u00edrn\u011b vy\u0161\u0161\u00ed propustnost sv\u011btla, minim\u00e1ln\u00ed zabarven\u00ed, ide\u00e1ln\u00ed pro p\u0159esnou optiku a laserov\u00e9 aplikace.<\/li>\n\n\n\n
  • Limetkov\u00e9 oplatky<\/strong>: Velmi dobr\u00e1 optick\u00e1 \u010distota, ale m\u016f\u017ee vykazovat m\u00edrn\u00fd zelen\u00fd n\u00e1dech kv\u016fli obsahu \u017eeleza. Vhodn\u00fd pro ochranu displej\u016f, optick\u00e1 okna a levn\u00e9 experiment\u00e1ln\u00ed substr\u00e1ty.<\/li>\n<\/ul>\n\n\n\n

    Chemick\u00e1 odolnost<\/strong><\/h2>\n\n\n\n
      \n
    • Borosilik\u00e1t<\/strong>: Je odoln\u00fd v\u016f\u010di v\u011bt\u0161in\u011b kyselin a slab\u00fdch louh\u016f, tak\u017ee je vhodn\u00fd pro laboratorn\u00ed a pr\u016fmyslov\u00e9 chemick\u00e9 procesy.<\/li>\n\n\n\n
    • Soda-lime<\/strong>: St\u0159edn\u00ed odolnost; stabiln\u00ed v\u016f\u010di vod\u011b a m\u00edrn\u00fdm kyselin\u00e1m, ale n\u00e1chyln\u00fd k p\u016fsoben\u00ed alk\u00e1li\u00ed, co\u017e omezuje jeho pou\u017eit\u00ed v agresivn\u00edm chemick\u00e9m prost\u0159ed\u00ed.<\/li>\n<\/ul>\n\n\n\n

      \u00davahy o n\u00e1kladech a v\u00fdrob\u011b<\/strong><\/h2>\n\n\n\n
        \n
      • Limetkov\u00e9 oplatky<\/strong>:\n
          \n
        • Surovin je dostatek a jsou levn\u00e9 (p\u00edsek, uhli\u010ditan sodn\u00fd, v\u00e1penec).<\/li>\n\n\n\n
        • Floatov\u00fd proces umo\u017e\u0148uje velkoobjemovou v\u00fdrobu p\u0159i n\u00edzk\u00fdch n\u00e1kladech.<\/li>\n\n\n\n
        • Snadno se zpracov\u00e1v\u00e1 \u0159ez\u00e1n\u00edm, le\u0161t\u011bn\u00edm a tvarov\u00e1n\u00edm.<\/li>\n<\/ul>\n<\/li>\n\n\n\n
        • Borosilik\u00e1tov\u00e9 desti\u010dky<\/strong>:\n
            \n
          • Vy\u0161\u0161\u00ed n\u00e1klady kv\u016fli p\u0159\u00eddavku boru a speci\u00e1ln\u00edm podm\u00ednk\u00e1m taven\u00ed.<\/li>\n\n\n\n
          • Vhodn\u00e9 pro vysoce p\u0159esn\u00e9 aplikace, kde je rozhoduj\u00edc\u00ed tepeln\u00e1 a chemick\u00e1 stabilita.<\/li>\n<\/ul>\n<\/li>\n<\/ul>\n\n\n\n

            Praktick\u00fd poznatek:<\/strong> Pro velkoobjemov\u00e9 a levn\u00e9 experimenty nebo v\u00fdrobu prototyp\u016f se up\u0159ednost\u0148uj\u00ed sodnov\u00e1penat\u00e9 desti\u010dky. Pro p\u0159esn\u00e1 za\u0159\u00edzen\u00ed, tepeln\u00e9 cykly nebo n\u00e1ro\u010dn\u00e9 chemick\u00e9 procesy jsou vhodn\u011bj\u0161\u00ed borosilik\u00e1tov\u00e9 desti\u010dky.<\/p>\n\n\n\n

            Srovn\u00e1n\u00ed aplikac\u00ed<\/strong><\/h2>\n\n\n\n
            Aplikace<\/th>Borosilik\u00e1tov\u00e9 pl\u00e1tky<\/th>Limetkovo-sodov\u00e9 oplatky<\/th><\/tr><\/thead>
            V\u00fdzkum MEMS<\/td>Vynikaj\u00edc\u00ed, sn\u00e1\u0161\u00ed lepen\u00ed a mikrofabrika\u010dn\u00ed procesy<\/td>Vhodn\u00e9 pro n\u00edzk\u00e9 teploty nebo prototypov\u00e1n\u00ed MEMS<\/td><\/tr>
            Nan\u00e1\u0161en\u00ed tenk\u00fdch\/tlust\u00fdch vrstev<\/td>Vysok\u00e1 spolehlivost, minim\u00e1ln\u00ed deformace<\/td>Cenov\u011b v\u00fdhodn\u00e1 mo\u017enost pro velkoplo\u0161n\u00e9 n\u00e1t\u011bry<\/td><\/tr>
            Optick\u00e1 okna \/ displeje<\/td>P\u0159esn\u00e1 optika a lasery<\/td>Displeje pro v\u0161eobecn\u00e9 pou\u017eit\u00ed, levn\u00e1 optick\u00e1 okna<\/td><\/tr>
            Laboratorn\u00ed substr\u00e1ty<\/td>Chemick\u00e1 stabilita p\u0159i zah\u0159\u00edv\u00e1n\u00ed<\/td>\u00dasporn\u00fd experiment\u00e1ln\u00ed substr\u00e1t<\/td><\/tr>
            Mikrofluidika<\/td>Vysok\u00e1 tepeln\u00e1 a chemick\u00e1 odolnost<\/td>Vhodn\u00e9 pro testov\u00e1n\u00ed tekutin p\u0159i n\u00edzk\u00fdch teplot\u00e1ch<\/td><\/tr><\/tbody><\/table><\/figure>\n\n\n\n

            Z\u00e1v\u011br<\/strong><\/h2>\n\n\n\n

            Volba mezi borosilik\u00e1tov\u00fdmi a sodnov\u00e1penat\u00fdmi sklen\u011bn\u00fdmi desti\u010dkami z\u00e1vis\u00ed na pe\u010dliv\u00e9m vyv\u00e1\u017een\u00ed tepeln\u00e9 stability, mechanick\u00e9 pevnosti, optick\u00e9 kvality, chemick\u00e9 odolnosti a ceny.<\/p>\n\n\n\n

              \n
            • Borosilik\u00e1tov\u00e9 desti\u010dky<\/strong> jsou nejvhodn\u011bj\u0161\u00ed pro vysoce p\u0159esn\u00e9, vysokoteplotn\u00ed a chemicky n\u00e1ro\u010dn\u00e9 aplikace.<\/li>\n\n\n\n
            • Limetkov\u00e9 oplatky<\/strong> jsou ide\u00e1ln\u00ed pro cenov\u011b citliv\u00e9, n\u00edzkoteplotn\u00ed nebo velkoobjemov\u00e9 optick\u00e9 a MEMS aplikace.<\/li>\n<\/ul>\n\n\n\n

              Pochopen\u00edm t\u011bchto rozd\u00edl\u016f mohou in\u017een\u00fd\u0159i, v\u00fdzkumn\u00edci a v\u00fdvoj\u00e1\u0159i produkt\u016f optimalizovat v\u00fdb\u011br materi\u00e1l\u016f pro experiment\u00e1ln\u00ed i v\u00fdrobn\u00ed prost\u0159ed\u00ed. Zohledn\u011bn\u00ed kompatibility povlak\u016f, tlou\u0161\u0165ky desti\u010dek a manipula\u010dn\u00edch postup\u016f nav\u00edc m\u016f\u017ee d\u00e1le zv\u00fd\u0161it v\u00fdkonnost a spolehlivost a zajistit, aby zvolen\u00fd substr\u00e1t spl\u0148oval optick\u00e9 i mechanick\u00e9 po\u017eadavky pro zam\u00fd\u0161len\u00e9 pou\u017eit\u00ed.<\/p>\n\n\n\n

              V\u00fdb\u011br spr\u00e1vn\u00e9ho materi\u00e1lu pro desti\u010dky m\u016f\u017ee v kone\u010dn\u00e9m d\u016fsledku zlep\u0161it v\u00fdkon za\u0159\u00edzen\u00ed, sn\u00ed\u017eit v\u00fdrobn\u00ed rizika a poskytnout n\u00e1kladov\u011b efektivn\u00ed \u0159e\u0161en\u00ed p\u0159izp\u016fsoben\u00e9 konkr\u00e9tn\u00edm pr\u016fmyslov\u00fdm nebo v\u00fdzkumn\u00fdm pot\u0159eb\u00e1m.<\/p>","protected":false},"excerpt":{"rendered":"

              In precision optics, microfabrication, and MEMS research, selecting the correct glass wafers is critical for ensuring mechanical stability, optical performance, and process reliability. Two of the most commonly used materials are borosilicate glass wafers and soda-lime glass wafers. While both are forms of silicate glass, their composition, thermal properties, and mechanical characteristics differ significantly, making 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