產(chǎn)品描述：Description ◎纖維噴涂爐襯是在傳統(tǒng)陶瓷纖維應用技術(shù)的基礎(chǔ)上，借鑒耐火材料粉料、粒料噴射工藝發(fā)展起來的一種陶瓷纖維應用技術(shù)，是陶瓷纖維經(jīng)專用噴涂設(shè)備處理，用高壓空氣將處理后的纖維送至噴頭，并與噴頭周圍噴嘴噴出的霧狀粘結(jié)劑均勻混合后噴于工作面，形成陶瓷纖維噴涂壁襯。 ◎影響陶纖噴涂料使用性能和使用效果的因素有：陶瓷纖維渣球含量、纖維長度、纖維表面覆蓋粘結(jié)劑的均勻性、錨固件結(jié)構(gòu)、被噴涂表面處理等因素。 ceramic Fibre Spray furnace line is based of application technology of traditional ceramic fibre , learning from refractory powder, pellets injection technology. Cceramic fiber is dealed with special spray equipment, high pressure air senting treated fiber to the nozzle and mixing the adhesive on the surface of fibre to the working face , forming the wall line of ceramic fibre. Factors effecting application effect of ceramic fiber spray coating : shot content of ceramic fibre, fibre length, uniformity of surface coverage binder, anchor structures , treatment of sprayed surface and other factors. 產(chǎn)品分類：Product Series ◎1050陶纖噴涂料 HLGX-170 ◎1260陶纖噴涂料 HLGX-270 ◎陶纖噴涂料 HLGX-370 ◎高鋁陶纖噴涂料 HLGX-470 ◎含鋯陶纖噴涂料 HLGX-570 1050 Ceramic Fibre Spray Refractory HLGX-170 1260 Ceramic Fibre Spray Refractory HLGX-270 High Purity Ceramic Fibre Spray Refractory HLGX-370 High Aluminum Ceramic Fibre Spray Refractory HLGX-470 High Zirconium Ceramic Fibre Spray Refractory HLGX-570 產(chǎn)品特性：Characteristic ◎低熱容量 ◎低熱導率 ◎纖維噴涂爐襯整體性好爐襯無接縫，隔熱性優(yōu)良 ◎纖維噴涂爐襯高溫結(jié)構(gòu)穩(wěn)定性優(yōu)良 ◎施工迅速方便，尤其適用異型部壁襯的施工 Low heat storage Low thermal conductivity Furnace lining is seamless High compressive strength Excellent structure stability Construction quickly and easily, especially for special-shaped wall lining 典型應用：Application 冶金、石化、機械、電力、建材等行業(yè)工業(yè)窯爐，加熱裝置壁襯 Furnace lines of various industrial furnace and heating equipment in metallurgy, machine, construction and material, petrol-chemical and ferrous metal industry. 技術(shù)指標：Technical Index: 產(chǎn)品名稱 Product 火龍?zhí)沾衫w維噴涂料Huolong ceramic fiber spray refractory 分類溫度Classification Temperature 1260 1400 產(chǎn)品代碼 Code HLGX-170 HLGX-270 HLGX-370 HLGX-470 HLGX-570 加熱線變化（%） Shrinkage on Heating (%) 1000℃× 24h≤-3.5 1100℃× 24h≤-3 1350℃× 24h≤-3 1260℃× 24h≤-