Enjoy a wonderful assortment of quality woolen fabrics. One of the most celebrated and loved fabrics, wool for years have been our knight in shining armor for those frosty winter days. Woolen is extremely durable, absorbent and colorfast in nature. Sew chic wool suits, scarves, jackets, slacks, coats, vintage inspired skirts, and fashion accessories. Yarn & Fabric produce a lot of varieties of 100% Woollen and Woollen & Blends. We produce Woollen & Blends fabric with possible up to 60 inches (150cm). We produce Woollen & Blends fabric with possible weight (GSM) up to 800 grams. All Woollen & Blends fabric can be done as grey, dyed and printed. Also, it can be produced with resistance to fire, water, oil etc.
Glasswool (glass wool) blanket: Spec.: 1. Resin bond content: 3 ~ 8 % 2. Density: 16 kg/m3, 20 kg/m3, 24 kg/m3, 32 kg/m3 3. Thermal conductivity (705c): 0.042 ~ 0.049 w/m.K Subject to density and thickness 4. Average acoustic absorptivity: 0.8 ~ 1.1 Subject to density, thickness and frequency 5. Max. Service temperature: 300c 6. Average fibre diameter:
- For glass 10mm and 12mm thickness - Material : Available in SS304, SS316, SS316L - Dimensions 49*40*26 ( 165 grams), 62*44*27 ( 280 grams) - Mirror polished or Satin Stainless Steel.
Brief introduction Glass wool is a kind of insulation materials which is made of natural ores, such as quartzite, dolomite, feldspar, limestone and so on. With the features of low density, fireproof, thermal insulation, the glass wool has found a wide utilization in the fields of petrochemical industry, architecture, etc. The capacity of the glass wool production line is 2000-20000 tons per year. The raw material is cullet, feldspar, dolomite, calcined soda, borax, limestone, others. The fuel could natural gas or heavy oil, etc. Production process The glass wool production line is a complete set of machinery. The raw materials added with auxiliary agents such as calcined soda and borax are melted into glass fluid in the tank furnace. The lava is drawn, blown or thrown into very thin fibers under centrifugal force of the spinner. The forming fiber will be collected to be original blanket by wool collecting machine. The original felt is sent into the curing oven to be solidified and shaped by the conveyor. After curing, the products will go through the cooling section. It will be cut by slitting cutter and cross cutter according to the setting length. Finally, it will become the final products such as board, blanket. We could provide a series of service including the project consultancy, technical support, installation and commission, employees training, system maintenance, technology upgrade, etc. we warmly welcome you to visit our company. Equipment introduction Melting system This production line adopts tank furnace which is made up of different refractory materials and uses natural gas as fuel. Fiber forming system Centrifuge could produce glass wool fiber from vitreous fluid. It is the key equipment of the whole production line and decides the quality of the final product. Glass wool collector Glass wool collector could collect fibers into crude felt which is then sent to curing oven via the transition conveyor. Curing oven Curing oven could heat and shape glass wool layers containing binder as per the density, size required for products. It could make binder and fibers polymerize into one, producing glass wool blanket and board. Conveying and cutting machines The conveying machine could convey the cured glass wool products to the cutting system and cool the products at the same time. The cutting system could proceed longitudinal and crossing cutting to make required products. Blanket / felt-rolling machine It could roll the glass wool blanket into rolls and facilitate the packing of product. PE film, Container
1.Descripation Owing to glass wool's good permformances, e.G., thin and long inner fiber, low thermalconductivity, it can stop air flowing and heat transforming .Meanwhile, it can quickly reduce the transportation of sound to make effect of insulation and sound absorpition.Certrifugal glass wool blanket was the best material used for the insulation and sound absorption of steel structures.It mainly includes bare blanket and blanket with foil-clad covered.They are widely used in industrial plants, warehouses, public facilities, exhibition centers, cold stores and a variety of indoor playrounds, Slag inclusion content%¡ü0.3gb/t 5480.5 Plastic bags
Product name glass wool Via CE Certificate Non-combustiblity A1 GB Testing Specification Glass Wool Blanket Density 10K--48K Thickness 25mmí¬150mm Wide 1200mm Length 5mí¬30m Aluminum foil are able to be stick on the surface. Glass Wool Board Density 24Kí¬80K Length 1200mm Wide 600mm, 1200mm Accept OEM Packaging Take advanced Vacuum compress technology 1. Normal standard PE+PP 2. Heat contraction sealed PE+PP+PE 3 Color with the bag PE+(PP+PE) 4. Accept OEM Technical Parameters Conductivity Coefficient 0.036W/M.Kí¬0.042W/M.K Fiber diameter
Developed a comprehensive range of tailor -made scoured types that cater to a variety of woolen worsted and non-woven customers. Pure New Merino Sheep wool for Knitting felting Specification & Use 100% New Sheep Wool Micron: 21/22mic Length: 35/55mm Color: Can custom as Panton Feature : Fully washed and no odor, Moth-preventive finish Use : Felted military beret and woolen coat Product show uick Details Material: 100% Wool, 100% wool Type: Merino Fiber Type: Carded Pattern: Scoured Fiber Length: 35-55mm Fineness: 20/22mic Â±0.5, 22mic Place of Origin: Izmir Turkey Brand Name: Alxa Model Number: General Color: Natural White Usage: Blanket,felt,spinning,weaving Product name: 100% White Scoured Natural Sheep Wool for Felt Sample: sheep wool Origin: Turkey Length: 26mm-44mm Patten: scoured Natural Sheep Wool: 100% White Scoured Natural Sheep Wool for Felt Contact for more details for your order quote. Direct response and delivery
Works:owing to glass wool's good performance, e.G., thin and long inner fiber, low thermal conductivity, it can stop air flowing and heat transforming. Meanwhile, it can quickly reduce the transportation of sound to make effects of insulation and sound absorption. Type:centrifugal glass wool is divided into glass wool boards and glass wool blanket. Applications: It was the best material used for the insulation and sound absorption of steel structures. It mainly includes bare blanket with foil-clad covered. They are widely used in industrial plants, warehouse, public facilities, exhibition centre& ¤s, shopping centers, cold shores and a variety of indoor playgrounds, sports grounds and other buildings. Packing details:plastic bag, woven bag, pp/pe bag or as your specifical requirements
Main specification range: Length: 5000-30000mm Width: 1200mm ( 400mm, 600mm, 1150mmis available) Thickness: 25-200mm Density: 10-50kg/m3 Pe and pp bags
Length: 2-20m Width: 1200mm Thickness: 50-100mm Density: 12-20kg/m3 Conductivity Coefficient 0.042--0.049W/M.K Fiber diameter : 8 Non-combustibility A1(nonflaming) Water absorption 0.2% Water repellent rate :99% Sound insulation coefficient:0.8-1.1 Slag nodule content: less than 0.3% Applicable Temperature:-120--400. For increasing loading quantity and reducing cost of transportation, all exported glass wool blanket would be packed vacuum.
Glass wool, glass wool production line: Arabian (A.) , الصوف الزجاجي French (F.), laine de verre Japanese (J.), ¥°¥é¥¹¥¦©`¥ë Korean (K.), 유리 솜 Russian (R.), §ã§ä§Ö§Ü§Ý§à§Ó§Ñ§ä§í Spanish (S.), lana de vidrio Technical characteristics of glass wool products, glass wool board, glass wool blanket, glass wool pipe, etc. Item Unit Technical parameters Volume weight Average fiber diameter Length Width Thickness Hydrophobic Heat conduct coefficient Incombustibility Highest usage temperature Heat absorption coefficient kg/m3 ¦Ìm mm mm mm % W/(m¡¤K) ¡æ 10~96 4.0~6.0 600~20000 600~1200 25~200 >98.5 0.030-0.040 Qualified (Grade A) 400 1.03 product reverberation method 24kg/m3 2000HZ
Glass Wool Feflt CE certificate Size:8-32m width:1.2mm Thickness:25-200mm Density:10-48kg/m3 Packing: Vacuum with PP or PE Ranking Fire: Europclass A Quality Control system: ISO9000 Daily capacity:90MT per day. Plant Facility:4 production lines. Vacuum with PP or PE.
R-value Length (mm) Width (mm) Thickness (mm) R 3.0 1160 430 165 1160 580 165 R3.5 1160 430 185 1160 580 185 R4.0 1160 430 200 1160 580 200 R 4.5 1160 430 240 1160 580 240 Pe with vacuum
It has been decades that architectural glass sheets have been utilized as a construction material. Over this time, manufacturers have achieved a significant success in terms of fabrication and finishing technology, bringing the glass properties almost to perfection. Increasingly pronounced in glass industry is the nanotechnology sector, which renders it specific and extraordinary properties in terms of operation and aesthetics, thus opening new bright perspectives for architects and designers. It would be fair to say that it was new safe multilayer glass items that helped discover most significant improvements of properties and capabilities of glass as a construction material. All valuable operation and technical properties of such glass are achieved by using a “sandwich” principle, i.e. by creating a multilayer composite structure with a polymer layer in between. It is still difficult to appreciate the whole significance and implications of this development. Regrettably, many issues of perfecting the technology and equipment that helps create multilayer glass (triplex production equipment) have been outside researchers’ focus of attention, thus hindering the practical development across the entire range of safety glass application. Most new properties are still unknown and require serious theoretical and experimental developments to uncover. Among these: detailed study of formation and development of multilayer glass production technology based on innovative polymer materials with a higher strength compared to existing materials, research of properties and application of hybrid structures based on new composite elements. The combination of fragile glass and plastic materials (for instance: polycarbonate and glass sandwich panels, glass and acryl tile etc.) enables to optimize the functionality of multi-layer shutterproof glass. It is beyond doubt that ongoing researches in this area will boost the improvement of existing and development of new approaches to designing and creating multilayer glass machines for industrial-scale production.
It often happens that people confuse glass panes and vinyl windows. These are not synonyms, however. A glass pane is a part and nearly crucial part of a window structure. This is a translucent structure consisting of two or more glasses that are fixed (glued) together along the outline using spacing bars and sealant compounds. Main functions of a glass pane: natural lighting, thermal and noise insulation. Glass panes are categorized by manufacturing process: standard, where molecular sieve is poured into a metal or vinyl spacer, after which the glued glass sheets are plastered along the edge with silicon, isomelt, polysulfide or polyurethane sealant compound, thus providing the secondary sealing. Warm edge technology-based manufacture This is a new and promising technology. It differs from the standard technology in that instead of several production steps as in the case with glass pane it involves only two (flexible spacer application, pressing), thus greatly saving time and cost. Such glass pane is warmer than that manufactured using a standard technology. As defined in GOST 24866, glass pane are categorized as follows: by number of chambers. A space between each two glass sheets is called a chamber. Glass panes can be single-chamber (two glass sheets), double-chamber (three glass sheets) and so on. by width The glass pane width is the full width considering its glass and air part. Glass panes can be 14, 16, 18, 20, 22, 24, 28, 32, 36, 40, 42, 44 etc. mm By glass type: regular energy-efficient glass with low-emission coating (hard or soft, also known as - or I-type) noise-resistant triplex sun-screening tinted or film-coated glass shutterproof glass with a high protection class.
A technology that creates a dim surface and renders it grainy and non-transparent (an operation contrary to polishing). The dimming allows drawing a picture on a glass surface. The dimming is widely used in manufacture of glass and ceramic dishware, decoration elements, imitation jewelry, souvenirs, glass furniture and other glass items. Glass dimming methods can be categorized by five groups: dimming by mechanical treatment; chemical dimming; application of dimmed coating by firing; application of dim paint coats; other dimming methods.