TWI731978B - 全氟彈性體組合物及密封材 - Google Patents
全氟彈性體組合物及密封材 Download PDFInfo
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Abstract
本發明提供一種全氟彈性體組合物及包含該全氟彈性體組合物之交聯物之密封材,該全氟彈性體組合物包含全氟彈性體、過氧化物交聯劑、作為二烯烴化合物之共交聯劑及有機顏料。
Description
本發明係關於一種全氟彈性體組合物及使用其之密封材。
密封材(襯墊、墊圈等)用於各種用途,並要求與其用途相應之特性。例如,於在高溫環境下使用之情形時要求耐熱性,於在曝露於電漿之環境下使用之情形時要求對電漿之耐受性(耐電漿性)。 另一方面,於半導體裝置或平板顯示器之製造中之成膜步驟中,存在使用具有高效之氧化力之臭氧之情況。對用於使用臭氧之製造裝置之密封材要求對臭氧之耐受性(耐臭氧性)。 專利文獻1~3著眼於密封材之耐臭氧性。 [先前技術文獻] [專利文獻] [專利文獻1]日本專利特開平08-151450號公報 [專利文獻2]日本專利特開2004-263038號公報 [專利文獻3]日本專利特開2010-037558號公報
[發明所欲解決之問題] 專利文獻1~3所記載之技術至少於以下方面具有改善之餘地。 (1)專利文獻1:高溫環境下之耐臭氧性不充分。又,就良好地保持耐臭氧性等並且削減橡膠調配量之觀點而言,較佳為於專利文獻1所記載之氟橡膠成形體中調配無機填充劑等填充劑,但無機填充劑可能會成為污染應用了密封材之裝置或使用其而製造之製品之因素。即,即便於使用耐臭氧性良好之密封材之情形時,於嚴苛之臭氧環境下,密封材之彈性體成分有時亦會被臭氧蝕刻,於此情形時,有所調配之無機填充劑飛濺至上述裝置內之虞。 (2)專利文獻2:揭示了使用四氟乙烯-丙烯系共聚物之氟橡膠成形體,但由於四氟乙烯-丙烯系共聚物於聚合物骨架包含C-H鍵,故而與全氟彈性體相比,耐臭氧性較差。 (3)專利文獻3:揭示了包含特定交聯劑之含氟彈性體組合物,但該交聯劑通常不易獲得。 另一方面,亦對在高溫環境下使用之密封材要求高溫環境下之壓縮永久應變特性(於高溫環境下使用時之壽命之指標)優異。 本發明之目的在於提供一種全氟彈性體組合物以及使用其之密封材,該全氟彈性體組合物可使用通常能獲得之原材料製備,且即便不調配無機填充劑,亦可形成於高溫環境下顯示出良好之耐臭氧性及/或壓縮永久應變特性之交聯物。 [解決問題之技術手段] 本發明提供以下所示之全氟彈性體組合物及密封材。 [1]一種全氟彈性體組合物,其包含全氟彈性體、過氧化物交聯劑、作為二烯烴化合物之共交聯劑、及有機顏料。 [2]如[1]之全氟彈性體組合物,其中上述有機顏料之含量於上述全氟彈性體每100重量份中為0.05重量份以上且未達2重量份。 [3]如[1]或[2]之全氟彈性體組合物,其不包含無機填充劑。 [4]一種密封材,其包含如[1]至[3]中任一項之全氟彈性體組合物之交聯物。 [發明之效果] 根據本發明,可提供一種全氟彈性體組合物以及使用其之密封材,該全氟彈性體組合物即便於不調配無機填充劑之情形時,亦可形成於高溫環境下顯示出良好之耐臭氧性及/或壓縮永久應變特性之交聯物。
<全氟彈性體組合物> [a]全氟彈性體 作為全氟彈性體,並無特別限制,例如可列舉四氟乙烯(TFE)-全氟(烷基乙烯基醚)系共聚物或TFE-全氟(烷氧基烷基乙烯基醚)系共聚物等。該等共聚物亦可進而包含源自其他全氟單體之結構單元。藉由包含全氟彈性體之全氟彈性體組合物,與包含含氫原子之氟彈性體之組合物相比,可進一步提高耐臭氧性及/或壓縮永久應變特性。全氟彈性體組合物可僅包含1種全氟彈性體,亦可包含2種以上。 形成四氟乙烯(TFE)-全氟(烷基乙烯基醚)系共聚物之全氟(烷基乙烯基醚)之烷基之碳數可為1~5,例如可為全氟(甲基乙烯基醚)、全氟(乙基乙烯基醚)、全氟(丙基乙烯基醚)等。較佳為全氟(甲基乙烯基醚)。 形成TFE-全氟(烷氧基烷基乙烯基醚)系共聚物之全氟(烷氧基烷基乙烯基醚)之鍵結於乙烯基醚基(CF2
=CFO-)之基之碳數可為3~12,例如可為: CF2
=CFOCF2
CF(CF3
)OCn
F2n + 1
、 CF2
=CFO(CF2
)3
OCn
F2n + 1
、 CF2
=CFOCF2
CF(CF3
)O(CF2
O)m
Cn
F2n + 1
或 CF2
=CFO(CF2
)2
OCn
F2n + 1
上述式中,n例如為1~5,m例如為1~3。 全氟彈性體具有交聯性。交聯性可藉由使交聯部位單體進而共聚合(進而包含源自交聯部位單體之結構單元)而賦予。所謂交聯部位,意指能夠進行交聯反應之部位。作為交聯部位,例如可列舉鹵素基(例如,I基、Br基等),較佳為I基。具有鹵素基作為交聯部位之全氟彈性體可藉由使用過氧化物交聯劑之過氧化物交聯系進行交聯,藉此,可獲得高溫環境下之耐臭氧性及/或壓縮永久應變特性良好之交聯物。 具有鹵素基作為交聯部位之交聯部位單體之一例為含鹵素基之全氟乙烯基醚。作為含鹵素基之全氟乙烯基醚,例如可列舉: CF2
=CFO(CF2
)n
OCF(CF3
)X(n例如為2~4)、 CF2
=CFO(CF2
)n
X(n例如為2~12)、 CF2
=CFO[CF2
CF(CF3
)O]m
(CF2
)n
X(X為鹵素基,n例如為2,m例如為1~5)、 CF2
=CFO[CF2
CF(CF3
)O]m
(CF2
)n
X(X為鹵素基,n例如為1~4,m例如為1~2)、 CF2
=CFO[CF2
CF(CF3
)O]n
CF2
CF(CF3
)X(X為鹵素基,n例如為0~4)等。 交聯性之全氟彈性體可具有使2個主鏈間交聯之交聯結構。 全氟彈性體中之源自TFE之結構單元/源自全氟(烷基乙烯基醚)或全氟(烷氧基烷基乙烯基醚)之結構單元/源自交聯部位單體之結構單元之比以莫耳比計,通常為50~74.8%/25~49.8%/0.2~5%,較佳為60~74.8%/25~39.5%/0.5~2%。本發明之全氟彈性體組合物亦可包含上述結構單元之比不同之2種以上之全氟彈性體。 [b]有機顏料 全氟彈性體組合物含有有機顏料。藉此,可提高藉由併用了作為二烯烴化合物之共交聯劑之過氧化物交聯系交聯後之高溫環境下之耐臭氧性及/或高溫環境下(尤其是250℃以上)之壓縮永久應變特性。一般而言,藉由過氧化物交聯系交聯後之交聯物與藉由㗁唑交聯系或三𠯤交聯系交聯後之交聯物相比,有高溫環境下之壓縮永久應變特性變差之傾向,但藉由含有有機顏料之本發明之全氟彈性體組合物,可明顯提高藉由過氧化物交聯系交聯後之交聯物之高溫環境下之壓縮永久應變特性。 本發明中可使用之有機顏料之具體例例如包含:偶氮顏料(偶氮色澱顏料、不溶性偶氮顏料、縮合偶氮顏料等);蒽醌系顏料、硫靛藍系顏料、紫環酮系顏料、苝系顏料、喹吖酮系顏料、異吲哚啉酮顏料、異吲哚啉顏料、二㗁𠯤顏料、喹酞酮顏料、吡咯并吡咯二酮顏料等多環式顏料;酞菁系顏料等。全氟彈性體組合物可僅包含1種有機顏料,亦可包含2種以上。作為有機顏料,可使用於色指數中被分類成顏料之有機顏料。 可較佳地使用之有機顏料係不含有金屬元素之有機顏料。不含有金屬元素之有機顏料即便密封材於半導體用途等嚴苛之臭氧環境下使用而密封材有時被蝕刻,源自金屬元素之物質亦不存在飛濺之虞。 就有效地提高高溫環境下之耐臭氧性及/或高溫環境下之壓縮永久應變特性之觀點而言,全氟彈性體組合物中之有機顏料(於使用2種以上之情形時為其合計量)之含量於全氟彈性體每100重量份中,較佳為0.05重量份以上且未達2重量份,更佳為0.05重量份以上且1.8重量份以下,進而較佳為0.05重量份以上且1.5重量份以下,進而更佳為0.05重量份以上且1.3重量份以下(例如0.05重量份以上且1.1重量份以下)。 [c]交聯劑及共交聯劑 全氟彈性體組合物包含過氧化物交聯劑。過氧化物交聯劑可僅使用1種,亦可將2種以上併用。過氧化物交聯劑例如可為:2,5-二甲基-2,5-二(過氧化第三丁基)己烷(市售品之例:日油製造之「Perhexa 25B」);過氧化二異丙苯(市售品之例:日油製造之「Percumyl D」);2,4-過氧化二氯苯甲醯;過氧化二第三丁基;過氧化第三丁基二異丙苯;過氧化苯甲醯(市售品之例:日油製造之「Nyper B」);2,5-二甲基-2,5-(過氧化第三丁基)己炔-3(市售品之例:日油製造之「Perhexyne 25B」);2,5-二甲基-2,5-二(過氧化苯甲醯)己烷;α,α'-雙(過氧化第三丁基-間異丙基)苯(市售品之例:日油製造之「Perbutyl P」);第三丁基過氧化異丙基碳酸酯;過氧化對氯苯甲醯等。 於過氧化物交聯系中將過氧化物交聯劑與共交聯劑併用。於本發明中,作為該共交聯劑之至少一部分,可使用下述式(1)所表示之二烯烴化合物: CH2
=CH-(CF2
)n
-CH=CH2
(1) 式(1)中之n較佳為4~12之整數,更佳為4~8之整數。根據本發明,由於係使用利用了該二烯烴化合物之過氧化物交聯系,故而與其他過氧化物交聯系相比,可明顯提高高溫環境下之交聯物之耐臭氧性及/或高溫環境下(尤其是250℃以上)之交聯物之壓縮永久應變特性。上述式(1)所表示之二烯烴化合物可僅使用1種,亦可將2種以上併用。 共交聯劑可包含除上述二烯烴化合物以外之其他共交聯劑。作為其他共交聯劑,可列舉:異氰尿酸三烯丙酯(市售品之例:日本化成公司製造之「TAIC」);氰尿酸三烯丙酯;三烯丙基甲縮醛;偏苯三酸三烯丙酯;N,N'-間伸苯基雙馬來醯亞胺;對苯二甲酸二丙炔酯;鄰苯二甲酸二烯丙酯;四烯丙基對苯二甲醯胺等可藉由自由基進行共交聯之化合物(不飽和多官能性化合物)。共交聯劑可僅使用1種,亦可將2種以上併用。 全氟彈性體組合物中之過氧化物交聯劑(於使用2種以上之情形時為其合計量)之含量於全氟彈性體每100重量份中例如為0.01~20重量份,就提高高溫環境下之耐臭氧性及/或壓縮永久應變特性之觀點而言,較佳為0.1~10重量份,更佳為0.5~5重量份。 全氟彈性體組合物中之共交聯劑(於使用2種以上之情形時為其合計量)之含量於全氟彈性體每100重量份中例如為0.1~40重量份,就提高高溫環境下之耐臭氧性及/或壓縮永久應變特性之觀點而言,較佳為0.2~10重量份。 [d]其他調配劑 為了改善加工性或調整物性等,全氟彈性體組合物可視需要包含抗老化劑、抗氧化劑、硫化促進劑、加工助劑(硬脂酸等)、穩定劑、黏著賦予劑、矽烷偶合劑、塑化劑、阻燃劑、脫模劑、蠟類、潤滑劑等添加劑。添加劑之其他例為氟系油(例如全氟醚等)之類之黏著性降低(防止)劑。添加劑可僅使用1種,亦可將2種以上併用。 但是,於在高溫環境下使用密封材之情形等時,有會產生揮發、溶出或析出之虞,因此添加劑之量較佳為儘可能少(例如,於全氟彈性體每100重量份中為10重量份以下,較佳為5重量份以下,更佳為2重量份以下,進而較佳為1重量份以下),較理想為不含有添加劑。 又,全氟彈性體組合物可視需要包含碳黑、二氧化矽、氧化鋁、氧化鋅、氧化鈦、黏土、滑石、珪藻土、硫酸鋇、碳酸鈣、碳酸鎂、氧化鈣、雲母、石墨、氫氧化鋁、矽酸鋁、鋁碳酸鎂、金屬粉、玻璃粉、陶瓷粉之類之無機填充劑。 但是,如上所述,無機填充劑有於嚴苛之臭氧環境下飛濺之虞,因此無機填充劑之量較佳為儘可能少(例如,於全氟彈性體每100重量份中為10重量份以下,較佳為5重量份以下,更佳為2重量份以下,進而較佳為1重量份以下),較理想為不調配無機填充劑。再者,所謂無機填充劑,係指含有金屬元素(Ba、Ti、Zn、Al、Mg、Ca、Si等)之填充劑。 全氟彈性體組合物可進而包含氟樹脂。藉此,可進一步提高全氟彈性體組合物之交聯物之耐臭氧性或機械強度。氟樹脂之形態並無特別限制,例如可以氟樹脂粒子之形式含於全氟彈性體組合物中。 氟樹脂係分子內具有氟原子之樹脂,例如可為聚四氟乙烯(PTFE)、四氟乙烯-全氟烷基乙烯基醚共聚物(PFA)、四氟乙烯-六氟丙烯共聚物(FEP)、四氟乙烯-乙烯共聚物(ETFE)、聚氯三氟乙烯(PCTFE)、氯三氟乙烯-乙烯共聚物(ECTFE)、聚偏二氟乙烯(PVDF)、聚氟乙烯(PVF)、偏二氟乙烯-六氟丙烯共聚物(VDF-HFP共聚物)、偏二氟乙烯-六氟丙烯-四氟乙烯共聚物(VDF-HFP-TFE共聚物)等。氟樹脂可僅單獨使用1種,亦可將2種以上併用。 上述之中,就防止於高溫環境下樹脂熔融而壓縮永久應變等特性受損之觀點而言,較佳為使用PFA、PTFE等熔點相對較高之氟樹脂。 氟樹脂亦可為含有官能基者。官能基例如可藉由使具有該官能基之單體共聚合而導入。若使作為具有官能基之單體之上述交聯部位單體共聚合,則藉由上述交聯劑氟樹脂與全氟彈性體之交聯亦然進行,因此可進而提高全氟彈性體組合物之交聯物之機械強度等。作為具有官能基之氟樹脂之例,可列舉日本專利特開2013-177631號公報所記載之含腈基之聚四氟乙烯。 又,氟樹脂例如亦可為「TFM改性PTFE」(Dyneon公司製造)之類之經改性後之氟樹脂。 於使用氟樹脂之情形時,就有效地提高交聯物之機械強度等之觀點而言,全氟彈性體組合物中之氟樹脂之含量(於使用2種以上之氟樹脂之情形時為其合計量)於全氟彈性體每100重量份中,較佳為1~100重量份,更佳為5~50重量份。若氟樹脂之含量過多,則顯示出彈性之全氟彈性體之含量相對減少而壓縮永久應變特性變差。 [e]全氟彈性體組合物之製備 全氟彈性體組合物可藉由將全氟彈性體、有機顏料、交聯劑、共交聯劑、及視需要添加之其他調配劑均勻地混練而製備。作為混練機,例如可使用:開口輥之類之混合輥;捏合機、班布里混合機之類之混合機等先前公知者。該等調配劑可一次性混合後進行混練,亦可以於對一部分調配劑進行混練後對剩餘之調配劑進行混練之方式分成複數個階段而對所有調配劑進行混練。 就全氟彈性體與氟樹脂之混練而言,例如可使用:1)使用混合輥對全氟彈性體粉末與氟樹脂粉末進行混練之方法,2)使用混合機或雙軸擠出機等裝置對全氟彈性體粉末或顆粒與氟樹脂粉末或顆粒進行熔融混練之方法,以及3)於全氟彈性體之製備階段添加氟樹脂之方法。 作為上述3)之方法,可列舉於將均係利用乳化聚合法而獲得之全氟彈性體之水性分散液與氟樹脂之水性分散液進行混合後,藉由共凝集獲得全氟彈性體與氟樹脂之混合物之方法。 <密封材> 藉由使上述全氟彈性體組合物交聯成形(硫化成形),可獲得密封材之類之交聯成形物。即,密封材包含全氟彈性體組合物之交聯物。交聯成形可藉由視需要使全氟彈性體組合物預成形後,使用模具進行壓製成形而進行。成形溫度例如為150~220℃左右。亦可藉由進給壓製成形、射出成形、擠出成形等進行成形。亦可視需要於150~320℃左右之溫度下進行二次交聯。 亦可於進行如上述之交聯成形(壓製成形等)後,進而設置照射游離輻射而使之交聯之步驟。藉此,可進而提高壓縮永久應變特性。作為游離輻射,可較佳地使用電子束或γ射線。 密封材可為墊圈或襯墊等。密封材之形狀係對應於其用途而適當選擇,其代表例係剖面形狀為O型之O型圈。由於本發明之密封材即便於高溫環境下亦顯示出良好之耐臭氧性及/或壓縮永久應變特性,故而可較佳地用作用以保持半導體裝置或平板顯示器之製造中之成膜步驟中所使用之裝置等於高溫環境下使用臭氧之裝置內之真空度之密封材。 [實施例] 以下,列舉實施例及比較例對本發明更詳細地進行說明,但本發明並不限定於該等。 <實施例1~11、比較例1> 依據以下順序製備全氟彈性體組合物,繼而,製作密封材。首先,依據表1所示之調配組成(表1中之調配量之單位為重量份),並藉由開口輥對各調配劑之特定量進行混練。繼而,將所獲得之全氟彈性體組合物於165℃、20分鐘之條件下壓製成形後,於230℃、16小時之條件藉由熱進行2次交聯而獲得密封材(O型圈)。 [表1]
上述實施例及比較例中使用之各調配劑之詳細內容如下所述。 [1]FFKM1:包含作為四氟乙烯-全氟(烷基乙烯基醚)-含碘原子之全氟(烷基乙烯基醚)共聚物之全氟彈性體、上述式(1)所表示之共交聯劑及聚四氟乙烯粒子之組合物[Solvay Specialty Polymers公司製造之「Tecnoflon PFR5910M」)。於表1中,於「FFKM1」之欄中表示FFKM1所包含之全氟彈性體之含量(重量份),於「氟樹脂1」之欄中表示FFKM1所包含之氟樹脂之含量(重量份),於「共交聯劑」之欄中表示FFKM1所包含之上述式(1)所表示之共交聯劑之含量(重量份)。 [2]交聯劑:2,5-二甲基-2,5-二(過氧化第三丁基)己烷[日油製造之「Perhexa 25B」]。 [3]有機顏料A:C.I.顏料藍60、 [4]有機顏料B:C.I.顏料藍177、 [5]有機顏料C:C.I.顏料紅149、 [6]有機顏料D:C.I.顏料紅178。 (密封材之評價) 針對所獲得之交聯成形品(密封材),對下述項目進行測定、評價。將結果示於表1。 [1]耐臭氧性之評價 進行將密封材於臭氧濃度200 g/m3
、溫度160℃之環境下放置72小時之臭氧暴露試驗。測定試驗前後之密封材之重量,並依據下述式求出重量減少率: 重量減少率(%)={(試驗前之重量-試驗後之重量)/(試驗前之重量)}×100。 [2]密封材之壓縮永久應變 依據JIS K6262,於200℃×72小時、壓縮率25%、及260℃×72小時、壓縮率25%之各個條件下,使用線徑φ3.53之O型圈測定壓縮永久應變。 <實施例12~18、比較例2~5> 依據以下順序製備全氟彈性體組合物,繼而,製作密封材。首先,依據表2所示之調配組成(表2中之調配量之單位為重量份),並利用開口輥對各調配劑之特定量進行混練。繼而,將所獲得之全氟彈性體組合物於165℃、20分鐘之條件下壓製成形後,於230℃、16小時之條件藉由熱進行2次交聯而獲得密封材(O型圈)。 [表2]
上述實施例及比較例中使用之各調配劑之詳細內容如下所述。 [1]FFKM1:包含作為四氟乙烯-全氟(烷基乙烯基醚)-含碘原子之全氟(烷基乙烯基醚)共聚物之全氟彈性體、上述式(1)所表示之共交聯劑及聚四氟乙烯粒子之組合物[Solvay Specialty Polymers公司製造之「Tecnoflon PFR5910M」)。於表2中,於「FFKM1」之欄中表示FFKM1所包含之全氟彈性體之含量(重量份),於「氟樹脂1」之欄中表示FFKM1所包含之氟樹脂之含量(重量份),於「共交聯劑」之欄中表示FFKM1所包含之上述式(1)所表示之共交聯劑之含量(重量份)。 [2]交聯劑:2,5-二甲基-2,5-二(過氧化第三丁基)己烷[日油製造之「Perhexa 25B」]。 [3]有機顏料C:C.I.顏料紅149、 [4]有機顏料E:C.I.顏料紅179、 [5]有機顏料F:C.I.顏料黃95、 [6]有機顏料G:C.I.顏料黃110、 [7]有機顏料H:C.I.顏料紅254、 [8]有機顏料I:C.I.顏料紫19、 [9]有機顏料J:C.I.顏料黃139。 (密封材之評價) 針對所獲得之交聯成形品(密封材),以與實施例1~11、比較例1相同之方式對耐臭氧性及壓縮永久應變進行測定、評價。將結果示於表2。
Claims (3)
- 一種全氟彈性體組合物,其包含全氟彈性體、過氧化物交聯劑、作為共交聯劑之二烯烴化合物、及有機顏料,上述二烯烴化合物為下述式(1)所表示者:CH2=CH-(CF2)n-CH=CH2 (1)[式(1)中之n為4~12之整數],上述有機顏料之含量係上述全氟彈性體每100重量份為0.05重量份以上且0.3重量份以下。
- 如請求項1之全氟彈性體組合物,其不包含無機填充劑。
- 一種密封材,其包含如請求項1或2之全氟彈性體組合物之交聯物。
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CN (1) | CN109153836B (zh) |
SG (1) | SG11201809391WA (zh) |
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JP6618507B2 (ja) * | 2016-05-30 | 2019-12-11 | 株式会社バルカー | パーフルオロエラストマー組成物及びシール材 |
WO2020116394A1 (ja) * | 2018-12-04 | 2020-06-11 | 株式会社バルカー | エラストマー組成物及びシール材 |
EP3690111B1 (en) | 2019-02-01 | 2022-08-03 | LG Electronics Inc. | Laundry treating apparatus and method for controlling the same |
WO2023042510A1 (ja) * | 2021-09-14 | 2023-03-23 | ユニマテック株式会社 | 含フッ素エラストマー組成物 |
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CN105121518A (zh) * | 2013-04-09 | 2015-12-02 | 霓佳斯株式会社 | 交联氟橡胶的制造方法 |
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JPH08151450A (ja) | 1994-09-29 | 1996-06-11 | Nippon Valqua Ind Ltd | 耐オゾン性フッ素ゴム成形体 |
JP2004263038A (ja) | 2003-02-28 | 2004-09-24 | Nichias Corp | フッ素ゴム成形体及びその製造方法 |
CN100352856C (zh) * | 2003-04-22 | 2007-12-05 | 大金工业株式会社 | 具有优异的防止等离子体老化效果的含氟弹性体组合物及其成型品 |
US7678858B2 (en) * | 2003-04-22 | 2010-03-16 | Daikin Industries, Ltd. | Fluorine-containing elastomer composition excellent in plasma-aging prevention effect and shaped article made thereof |
US20070208142A1 (en) | 2006-03-03 | 2007-09-06 | Adair Eric W | Fluoropolymer curing compositions |
JP2008001894A (ja) * | 2006-05-26 | 2008-01-10 | Daikin Ind Ltd | 耐プラズマ性に優れた含フッ素エラストマー組成物およびそれからなるシール材 |
ITMI20061290A1 (it) | 2006-07-03 | 2008-01-04 | Solvay Solexis Spa | Composizioni (per) fluoroelastometriche |
DE102008020312A1 (de) * | 2008-04-23 | 2009-10-29 | Continental Aktiengesellschaft | Kautschukmischung mit verbessertem Alterungsverhalten |
JP2010037558A (ja) | 2008-08-06 | 2010-02-18 | Daikin Ind Ltd | 含フッ素エラストマー組成物およびそれからなるシール材 |
US8889796B2 (en) * | 2008-10-22 | 2014-11-18 | Daikin Industries, Ltd. | Perfluoroelastomer composition |
TWI482784B (zh) * | 2009-02-13 | 2015-05-01 | Solvay Solexis Spa | 全氟彈性體 |
CN107075219A (zh) * | 2014-09-16 | 2017-08-18 | 大金工业株式会社 | 含氟弹性体组合物和成型品 |
JP2016145277A (ja) * | 2015-02-06 | 2016-08-12 | ニチアス株式会社 | 架橋剤 |
JP2016145167A (ja) * | 2015-02-06 | 2016-08-12 | ニチアス株式会社 | 架橋剤及びフッ素含有芳香族化合物 |
JP6618507B2 (ja) * | 2016-05-30 | 2019-12-11 | 株式会社バルカー | パーフルオロエラストマー組成物及びシール材 |
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JP6618507B2 (ja) | 2019-12-11 |
EP3467026A1 (en) | 2019-04-10 |
KR20190013839A (ko) | 2019-02-11 |
EP3467026A4 (en) | 2020-01-29 |
TW201809113A (zh) | 2018-03-16 |
KR102342909B1 (ko) | 2021-12-23 |
WO2017208928A1 (ja) | 2017-12-07 |
SG11201809391WA (en) | 2018-11-29 |
US11015096B2 (en) | 2021-05-25 |
CN109153836A (zh) | 2019-01-04 |
CN109153836B (zh) | 2021-11-02 |
JP2017214556A (ja) | 2017-12-07 |
US20190309199A1 (en) | 2019-10-10 |
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