{"id":5698,"date":"2022-10-30T05:41:37","date_gmt":"2022-10-30T05:41:37","guid":{"rendered":"https:\/\/longchangchemical.com\/?p=5698"},"modified":"2026-04-28T10:42:10","modified_gmt":"2026-04-28T10:42:10","slug":"how-to-inhibit-oxygen-blocking","status":"publish","type":"post","link":"https:\/\/longchangchemical.com\/id\/how-to-inhibit-oxygen-blocking\/","title":{"rendered":"Bagaimana cara menghambat pemblokiran oksigen?"},"content":{"rendered":"<h1><strong>Bagaimana cara menghambat pemblokiran oksigen?<\/strong><\/h1>\n<p><!-- lc-qa-start --><\/p>\n<p><strong>Jawaban singkat:<\/strong> Untuk pekerjaan formulasi praktis, penyaringan fotoinisiator dimulai dengan sumber cahaya dan ketebalan lapisan film, lalu memeriksa kekuningan, adhesi, dan kelengkapan pengeringan dalam kondisi produksi nyata.<\/p>\n<p><!-- lc-qa-end --><\/p>\n<p>Pemblokiran oksigen juga disebut penghambatan oksigen. Karena konsentrasi oksigen yang tinggi pada lapisan permukaan, penghambatan oksigen akan menyebabkan lapisan bawah telah diawetkan, permukaan masih belum diawetkan dan lengket serta tidak kering. Penghambatan oksigen tidak hanya memperpanjang waktu pengawetan, tetapi juga dapat mempengaruhi kinerja lapisan permukaan yang diawetkan, seperti kekerasan, ketahanan abrasi, ketahanan gores, dll. Reaksi pengawetan hampir semua bahan fotoinisiator konvensional dipengaruhi oleh oksigen.<br \/>\nUntuk mengatasi masalah agregasi yang terhalang oksigen terutama dari mekanisme reaksi, laju reaksi, proses pengawetan untuk mengubah tiga aspek untuk dipecahkan.<br \/>\n1. mengubah mekanisme reaksi: meningkatkan sistem photoinisiator untuk menekan fenomena agregasi pemblokiran oksigen permukaan, seperti viskositas formulasi: pada formulasi viskositas yang lebih rendah, laju difusi oksigen akan lebih cepat, sehingga formulasi viskositas yang lebih tinggi, situasi pemblokiran oksigen akan berkurang. Karena peningkatan suhu mengurangi viskositas sistem, pengawetan pada suhu yang lebih rendah akan menghasilkan lebih sedikit penghalang oksigen.<br \/>\n2. Ubah laju reaksi: tingkatkan konsentrasi inisiator atau tingkatkan intensitas cahaya, karena pemblokiran oksigen disebabkan oleh reaksi antara oksigen dan radikal bebas, maka konsentrasi fotoinisiator yang tinggi dapat menghasilkan lebih banyak radikal bebas, yang mencegah konsumsi oksigen dan mencegah difusi oksigen ke lapisan, dan akhirnya mencapai efek mengatasi pemblokiran oksigen. Tentu saja, laju pembentukan radikal bebas dan jenis photoinisiator juga memiliki hubungan yang baik; Anda dapat memilih resin pengawet yang dimodifikasi, dan kemudian menambahkan monomer atau gugus yang mengonsumsi oksigen; menambahkan satu atau lebih pemulung oksigen ke sistem pengawetan cahaya dapat mengurangi efek pemblokiran oksigen<br \/>\n3. Sensitizer pewarna: Dengan adanya sensitizer pigmen tertentu (seperti 1,3-difenilisobenzofuran), produk dengan fungsi inisiator foto (seperti 1,2-dibenzoilbenzena) dapat diproduksi, sehingga mengurangi peran pemblokiran oksigen. Namun, metode ini akan memberikan warna pada formulasi, sehingga penggunaannya terbatas.<br \/>\n4. Ubah proses pengawetan: metode perlindungan gas inert; metode lilin mengambang; metode laminasi; metode iradiasi cahaya yang kuat; metode iradiasi langkah demi langkah<br \/>\nNamun, metode penanganan yang berbeda memiliki pro dan kontra.<\/p>\n<table style=\"border-collapse: collapse; width: 543.77pt;\" border=\"0\" width=\"725\" cellspacing=\"0\" cellpadding=\"0\">\n<tbody>\n<tr style=\"height: 14.25pt;\">\n<td class=\"et2\" style=\"height: 14.25pt; width: 114.75pt;\" width=\"153\" height=\"19\">Metode<\/td>\n<td class=\"et3\" style=\"width: 207.00pt;\" width=\"276\">Keuntungan<\/td>\n<td class=\"et3\" style=\"width: 222.00pt;\" width=\"296\">Kekurangan<\/td>\n<\/tr>\n<tr style=\"height: 26.25pt;\">\n<td class=\"et4\" style=\"height: 26.25pt; width: 114.75pt;\" width=\"153\" height=\"35\">Perlindungan gas inert<\/td>\n<td class=\"et5\" style=\"width: 207.00pt;\" width=\"276\">Tidak ada dampak negatif pada kinerja produk<\/td>\n<td class=\"et5\" style=\"width: 222.00pt;\" width=\"296\">Mahal; sulit untuk diterapkan<\/td>\n<\/tr>\n<tr style=\"height: 26.25pt;\">\n<td class=\"et4\" style=\"height: 26.25pt; width: 114.75pt;\" width=\"153\" height=\"35\">Metode lilin mengambang<\/td>\n<td class=\"et5\" style=\"width: 207.00pt;\" width=\"276\">Murah<\/td>\n<td class=\"et5\" style=\"width: 222.00pt;\" width=\"296\">Mempengaruhi kinerja produk; membutuhkan waktu untuk menyelesaikan migrasi<\/td>\n<\/tr>\n<tr style=\"height: 26.25pt;\">\n<td class=\"et4\" style=\"height: 26.25pt; width: 114.75pt;\" width=\"153\" height=\"35\">Metode pelapisan<\/td>\n<td class=\"et5\" style=\"width: 207.00pt;\" width=\"276\">Solusi yang baik apabila membran merupakan bagian dari produk<\/td>\n<td class=\"et5\" style=\"width: 222.00pt;\" width=\"296\">Biaya material dan pelepasan membran<\/td>\n<\/tr>\n<tr style=\"height: 26.25pt;\">\n<td class=\"et4\" style=\"height: 26.25pt; width: 114.75pt;\" width=\"153\" height=\"35\">Meningkatkan konsentrasi inisiator<\/td>\n<td class=\"et5\" style=\"width: 207.00pt;\" width=\"276\">Mudah diterapkan<\/td>\n<td class=\"et5\" style=\"width: 222.00pt;\" width=\"296\">Peningkatan residu atau produk sampingan dapat mengurangi kinerja produk<\/td>\n<\/tr>\n<tr style=\"height: 26.25pt;\">\n<td class=\"et4\" style=\"height: 26.25pt; width: 114.75pt;\" width=\"153\" height=\"35\">Metode penyinaran cahaya yang intens<\/td>\n<td class=\"et5\" style=\"width: 207.00pt;\" width=\"276\">Tidak ada dampak negatif pada produk<\/td>\n<td class=\"et5\" style=\"width: 222.00pt;\" width=\"296\">Meningkatkan biaya peralatan<\/td>\n<\/tr>\n<tr style=\"height: 26.25pt;\">\n<td class=\"et4\" style=\"height: 26.25pt; width: 114.75pt;\" width=\"153\" height=\"35\">Thiol<\/td>\n<td class=\"et5\" style=\"width: 207.00pt;\" width=\"276\">Meningkatkan ketahanan panas; mengurangi penyerapan air; meningkatkan daya rekat<\/td>\n<td class=\"et5\" style=\"width: 222.00pt;\" width=\"296\">Bau yang tidak sedap<\/td>\n<\/tr>\n<tr style=\"height: 26.25pt;\">\n<td class=\"et4\" style=\"height: 26.25pt; width: 114.75pt;\" width=\"153\" height=\"35\">Amina<\/td>\n<td class=\"et5\" style=\"width: 207.00pt;\" width=\"276\">Murah; dapat meningkatkan daya rekat<\/td>\n<td class=\"et5\" style=\"width: 222.00pt;\" width=\"296\">Masalah menguning setelah pengawetan; sensitif terhadap kelembapan<\/td>\n<\/tr>\n<tr style=\"height: 26.25pt;\">\n<td class=\"et4\" style=\"height: 26.25pt; width: 114.75pt;\" width=\"153\" height=\"35\">Eter<\/td>\n<td class=\"et5\" style=\"width: 207.00pt;\" width=\"276\">Dapat digunakan dalam jumlah besar<\/td>\n<td class=\"et5\" style=\"width: 222.00pt;\" width=\"296\">Mengurangi ketahanan suhu; dapat mengurangi ketahanan air<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<p><!-- lc-commercial-start --><\/p>\n<h2>A practical selection route for photoinitiator-related projects<\/h2>\n<p>Ketika pembeli teknis atau formulator menyaring fotoinisiator, kerangka keputusan yang paling berguna biasanya adalah kualitas pengawetan ditambah kesesuaian aplikasi: paket mana yang mengawetkan secara andal, menjaga penampilan tetap dapat diterima, dan masih berfungsi di bawah kondisi lampu, ketebalan film, dan substrat dari proses sebenarnya.<\/p>\n<ul>\n<li><strong>Cocokkan paketnya dengan lampunya terlebih dahulu:<\/strong> lampu merkuri, LED UV, dan sistem cahaya tampak dapat memberi peringkat fotoinisiator yang sama secara sangat berbeda.<\/li>\n<li><strong>Periksa pengawetan kedalaman dan pengawetan permukaan secara terpisah:<\/strong> Film yang terasa kering di permukaan pun masih bisa lemah di bagian bawahnya.<\/li>\n<li><strong>Keseimbangan warna kuning dengan reaktivitas:<\/strong> rute penyembuhan terdalam yang paling kuat tidak selalu menjadi pilihan komersial terbaik jika risiko warna atau migrasi menjadi tidak dapat diterima.<\/li>\n<li><strong>Gunakan formula akhir sebagai tolok ukur:<\/strong> Beban pigmen, paket monomer, dan ketebalan film semuanya dapat mengubah peringkat yang tampak dari inisiator yang sama.<\/li>\n<\/ul>\n<h3>Referensi produk yang direkomendasikan<\/h3>\n<ul>\n<li><strong><a href=\"https:\/\/longchangchemical.com\/id\/product\/photoinitiator-tpo-l-cas-84434-11-7\/\">CHLUMINIT TPO-L<\/a>:<\/strong> A strong low-yellowing reference for LED-oriented UV systems.<\/li>\n<li><strong><a href=\"https:\/\/longchangchemical.com\/id\/product\/photoinitiator-819-irgacure-819-cas-162881-26-7\/\">CHLUMINIT 819<\/a>:<\/strong> Berguna saat formulasi memerlukan penyerapan yang lebih kuat dan dukungan pengeringan yang lebih mendalam.<\/li>\n<li><strong><a href=\"https:\/\/longchangchemical.com\/id\/product\/photoinitiator-184-cas-947-19-3\/\">CHLUMINIT 184<\/a>:<\/strong> A classic free-radical benchmark for fast surface cure in many UV systems.<\/li>\n<\/ul>\n<h3>FAQ untuk pembeli dan formulator<\/h3>\n<p><strong>Mengapa paket fotoinisiator campuran umum digunakan?<\/strong><br \/>Karena satu produk mungkin mengontrol penguningan atau kesesuaian lampu dengan baik, sementara produk lain meningkatkan kedalaman pengeringan atau kinerja kecepatan garis, sehingga paket lengkap sering kali lebih kuat daripada satu tingkatan saja.<\/p>\n<p><strong>Apakah penyembuhan yang tidak lengkap selalu harus diselesaikan dengan menambahkan lebih banyak inisiator?<\/strong><br \/>Tidak secara otomatis. Keterbatasan sebenarnya mungkin terletak pada lampu, ketebalan film, nuansa pigmen, atau sisa sistem reaktif daripada dosis yang kurang.<\/p>\n<p><!-- lc-commercial-end --><\/p>","protected":false},"excerpt":{"rendered":"<p>Oxygen blocking is also called oxygen inhibition. Due to the high concentration of oxygen in the surface layer, the oxygen inhibition will lead to the lower layer has been cured,<\/p>","protected":false},"author":1,"featured_media":0,"comment_status":"closed","ping_status":"closed","sticky":false,"template":"","format":"standard","meta":{"footnotes":""},"categories":[114],"tags":[],"class_list":["post-5698","post","type-post","status-publish","format-standard","hentry","category-catalysts-chemical-auxiliary-agents"],"yoast_head":"<!-- This site is optimized with the Yoast SEO plugin v25.3.1 - https:\/\/yoast.com\/wordpress\/plugins\/seo\/ -->\n<title>How to inhibit oxygen blocking? - Longchang Chemical<\/title>\n<meta name=\"description\" content=\"Oxygen blocking is also called oxygen inhibition. 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