Plastic bottles are now widely used across various industries in daily life, including the beverage industry, daily chemical industry, food industry, household goods industry, and pharmaceutical and chemical industries. Plastic bottles have become the dominant type of container in contemporary society, having long replaced traditional glass or metal bottles. The production of plastic bottles requires PET multifunctional blow molding machines. The working principle of the blow molding machine is to heat the plastic preform to a certain temperature, and then use a special process to blow it into the desired shape and size. So, can tabung pemanas serat karbon be used in blow molding machines? The answer is yes.
Tabung Pemanas Umum di Mesin Cetak Tembak
Saat ini, tabung pemanas yang paling umum digunakan dalam mesin blow moulding adalah tabung pemanas inframerah filamen tungsten. Namun, tabung pemanas inframerah memiliki kekurangan: karena filamen tungsten perlahan-lahan menyublim pada suhu tinggi dan bereaksi dengan sejumlah kecil oksigen dalam gas pelindung, filamen pemanas pada akhirnya akan terbakar seiring waktu, yang merupakan masalah yang tidak dapat dihindari.
Mengapa Tabung Pemanas Serat Karbon Dapat Digunakan dalam Mesin Cetak Tuang Otomatis?
1. Bentuk dan Struktur yang serupa:
Tabung pemanas serat karbon share the same shape and structure as infrared heating tubes. Both have similar external structures and materials, which can be made from either transparent quartz tubes or ruby quartz tubes. All the advantages of infrared heating tubes, such as acid and alkali resistance, high temperature tolerance, quick startup speed, and low thermal inertia, are also present in carbon fiber heating tubes.
2. Perbedaan Elemen Pemanas:
The key difference lies in the heating element material. Infrared heating tubes use tungsten filaments, while tabung pemanas serat karbon use carbon fibers. Carbon fiber is a new material that has gained popularity in the last decade due to its excellent physical and chemical properties, and it is widely used in various fields. The biggest advantage of carbon fiber over tungsten filament is that under the protection of inert gas or in a vacuum environment, the physical properties of carbon fiber are much more stable—several times more stable than tungsten filament. This means that as long as the vacuum environment is maintained, carbon fiber heating elements can operate continuously, a significant advantage that tungsten filaments cannot match.
3. Kinerja Spektral:
Tabung pemanas inframerah filamen tungsten, setelah disesuaikan dengan tabung kuarsa eksternal atau parameter lainnya, dapat mengontrol panjang gelombang antara 1,06-1,2 µm. Sebaliknya, tabung pemanas serat karbon memiliki kisaran radiasi 1,5-15 µm. Rentang panjang gelombang ini memiliki area tumpang tindih yang lebih besar dengan spektrum inframerah yang diserap oleh gugus fungsi dalam plastik, itulah sebabnya analisis komponen plastik sering menggunakan spektrometer inframerah. Oleh karena itu, tabung pemanas serat karbon lebih cocok untuk memanaskan komponen plastik.
Meskipun tabung pemanas inframerah saat ini berkinerja cukup baik, itulah sebabnya banyak produsen belum memperkenalkan mesin cetak tiup tabung pemanas serat karbon baru, kekhawatiran utama adalah efektivitas pemanasan dan umur. Namun, kekhawatiran ini sebagian besar tidak perlu.
Indonesian 
English 
French 
German 
Italian 
Spanish 
Portuguese 
Russian 
Japanese 
Korean 
Arabic 
Dutch 
Swedish 
Polish 
Belarusian 
Bulgarian 
Azerbaijani 
Bengali 
Bosnian 
Czech 
Danish 
Greek 
Estonian 
Persian 
Finnish 
Scottish Gaelic 
Hebrew 
Hindi 
Croatian 
Hungarian 
Armenian 
Icelandic 
Georgian 
Lithuanian 
Latvian 
Macedonian 
Mongolian 
Malay 
Panjabi 
Romanian 
Slovak 
Slovenian 
Albanian 
Uzbek 
Vietnamese 
Ukrainian 
Turkish 
Thai 
Serbian