Optical adapters are the most commonly used optical passive components in optical fiber communication systems. Most optical adapters are made up of three parts: two optical connectors and a coupler. The two fiber optic connectors fit into two fiber ends; the coupler acts as a bushing. In addition, the coupler usually match with metal or non-metallic flange, in order to facilitate installing and fixing the connector. Quick Details: Place of Origin: Shenzhen, China (Mainland) Brand Name: Optico; Model Number: SC/APC SM Adapter SX; Product name: SC/APC fiber optic adapter; Application: Telecommunication; Type: Simplex, Single mode; Material: Plastic; Certification: ISO9001; Wavelength: 1310nm/1490nm/1550nm; MOQ: 200 pcs;
Quick information Place of origin: china Description 304/316 stainless steel security screen mesh roll It is weaved of high level stainless steel wires or hot-dipped galvanized wires. The surface is treated by electrostatic spraying. It is widely used for window screen, door screen or any other protective sides. Ss 316l/ 316 / 304 / 201 weave with pvc coating. Longest outdoor life of any mesh. Non flammable, fire resistant. Suitable for bush-fire prone areas Price Price condition : fobprice : usd.2 / sqm Packaging & delivery or cartons.Delivery lead time : 10-15 days after received advanced paymentminimum ord er : 500 0 sqmsupply ability : 70000 sqm per day. -
Stearic acid is a commonly used ingredient in candle making and plays a crucial role in the formulation of candles. Here's an overview of stearic acid's role and its benefits in candle production: 1. Wax Hardening: It is used to harden the wax and increase its melting point. This helps candles maintain their shape and structure, especially in warmer environments. 2. Enhances Burning Properties: It improves the burn quality of candles by slowing down the rate of combustion. This results in longer burn times and helps reduce dripping and excessive smoking. 3. Opacity and Color Enhancement: It can enhance the opacity of candle wax, especially when using translucent or colored waxes. It helps achieve a more vibrant and solid color appearance. 4. Mold Release Agent: It acts as a mold release agent, making it easier to remove the finished candles from their molds without sticking or damaging the shape. 5. Fragrance Retention: It can help improve the retention and diffusion of fragrance oils in candles. It allows the fragrance to bind more effectively with the wax, enhancing the scent throw during burning. 6. Stability and Shelf Life: The addition of stearic acid to candle wax can increase its stability and shelf life. It helps prevent the wax from discoloration, deterioration, or developing a stale odor over time. 7. Texture and Consistency: It can contribute to the smoothness and creaminess of the candle wax, improving its texture and consistency during the pouring and solidification process. When using stearic acid in candle making, it is important to consider the appropriate dosage. Excessive amounts of stearic acid can lead to issues like excessive smoke, decreased scent throw, or poor burning performance. It is recommended to follow specific guidelines and conduct small test batches to determine the optimal amount of stearic acid based on the desired results. Overall, stearic acid is a valuable ingredient in candle making, offering benefits such as wax hardening, improved burn quality, color enhancement, fragrance retention, and overall stability. FAQs: How much stearic acid is good for making candles with paraffinï¼? The proportion of stearic acid added can vary according to specific needs. If the purpose is to increase the hardness of the candle and reduce issues such as bubbles and cracking, an intermediate value, such as 5% to 10%, can be chosen. If it is for specific process effects, a higher proportion or even the maximum amount of addition may be required. However, to avoid excessive emulsification and other potential issues, it is not recommended to add more than 30%.
Description Two component, air drying, high solids, Epoxy coating. The product has the advantage of epoxy resin composition with speciality pigment, which facilitates one-coat, high build application for high performance. The product can be applied on minimum prepared surface and is designed to completely wet the substrate. Excellent adhesion is obtained on a variety of intact surfaces including over old coating and tightly adherent rust. The composition has been balanced to a convenient mixing ratio by volume with excellent application characteristics. The low solvent content reduces the problem of lifting of the paint film and adhesion failure by blistering and pin holing. This assures a stable long term performance. Recommended Use :- It is mainly recommended in those areas where blasting is impractical or impossible. Uses include steel structures in Industrial plants, bridges, tank exteriors, oil tanks, pipes, marine atmosphere, cooling towers, etc. It has good resistance to spillage and fumes of acids, alkalis, fresh and salt water. Recommended as a primer on suitably cleaned mild steel surface in various Fertilizer units, Refineries, Chemical and other plants, Transportation industries, steel plants, cement plants, power plants, pulp and paper industries, pharmaceutical industries, etc. for application on tank exteriors, structural steel, pipelines, machineries, vessels, etc. Physical Data COLOUR : Selected industrial shades FINISH : Semi glossy SOLIDS BY VOLUME : 80 + 2% THEORETICAL SPREADING RATE : 10 sq.mt. / ltr. at a recommended DFT of 80 FLASH POINT : Base : Above 25C Hardener : Above 25C DRYING CHARACTERISTICS (At 65% Relative Humidity & at 30�°C) : SURFACE DRY : 4 hours FULL CURE : 7 days SHELF LIFE : BASE : 6 months HARDENER : 6 months Surface Preparation Abrasive blasting to Sa 21/2 Swedish Standards is the best method of surface preparation. In case blasting is not possible, then the surface of steel should be cleaned to St-2/St-3 std. The surface should be absolutely dry, moisture and oil free before primer application. Application Data :- MIXING RATIO : Base : Hardener ( As per our recommendations) APPLICATION : By Brush / By Conventional Spray / By Airless Spray THINNER : Epoxy Thinner 190 RECOMMENDED DFT : 75-100 mic. OVERCOATING INTERVAL : MIN : 8 hours MAX : 24 hours COMPATIBILITY : Can be over coated with Epoxy, PU, Chlorinated rubber and Oleo-resinous topcoats.
Description Two components, air drying, high build Epoxy primer. The product has the advantage of epoxy resin composition with specialty pigments, which facilitates one-coat, high build application for high performance. The product can be applied on minimum prepared surface and is designed to be completely wet and provide maximum intimacy with the substrate. Excellent adhesion is obtained on a variety of intact surfaces including over old coating and tightly adherent rust. With the high solids and less solvent content of the coating the risk of lifting, blistering, pin holing is reduced, and thus the risk of adhesion failure is minimized. Recommended Use :- It is recommended for steel structures in industrial plants, bridges, tank exteriors, oil tanks, pipes, marine atmosphere, cooling towers, etc. It has good resistance to spillage and fumes of acids, alkalis, fresh and salt water. Recommended as a primer on suitably cleaned mild steel surface in various Fertilizer units, Refineries, Chemical and other plants, Transportation industries, steel plants, cement plants, power plants, pulp and paper industries, pharmaceutical industries, etc. for application on tank exteriors, structural steel, pipelines, machineries, vessels, etc. Physical Data COLOUR : Selected Industrial shades FINISH : Matt SOLIDS BY VOLUME : 63 + 3% THEORETICAL SPREADING RATE : 8.4 sq.mt / lt at a recommended DFT of 75 FLASH POINT : Base : Above 25C Hardener : Above 25C DRYING CHARACTERISTICS (At 30C & 65% Relative Humidity) : HARD DRY : 16 - 18 hours FULL CURE : 7 days SHELF LIFE : Base: 6 months Hardener: 6 months Surface Preparation Abrasive blasting to Sa 21/2 Swedish Standards is the best method of surface preparation. In case blasting is not possible than manual cleaning by mechanical methods like wire brush, emery paper, hand / power tools, etc. to achieve St-2 / St-3 cleaning standards of Swedish specification. The surface should be free from moisture, oil, dust and dirt and should be absolutely dry before painting. Removal of loose rust is a must. Application Data :- MIXING RATIO : Base : Hardener (As per our recommendation ) POT LIFE : 2 hours at 30�°C APPLICATION : By Brush / By Conventional Spray / By Airless Spray THINNER : Epoxy Thinner 190 RECOMMENDED DFT : 75-100 �µ. OVERCOATING INTERVAL : MIN : 8 hrs. MAX : 24 hours (In case it is exceeded, the surface should be roughened byemery scuffing) OVERCOATABILITY : Epoxy, PU, Chlorinated Rubber and Synthetic Enamel intermediate &finish coat.
We have different Ring designs to suit customer specific socket design.
Materials used to manufacture these rings are EPDM based soft Thermoplastic Elastomer (TPE) & hard Thermoplastic Elastomer (TPE) for tight fitment and leak proof performance.
We have different Ring designs to suit customer specific requirements.
PVC Casing Pipes are generally made as per ASTM:1785. The said pipe requires good quality sealing elements for leak proof performance.
We have different Ring designs to suit customer specific socket design.
Half Round Washer
CPVC & UPVC Fittings require good quality sealing products for leak proof performance.
Sprinkler Pipe are generally made as per IS:14151. The said pipes require standard quality sealing products for leak proof performance.
UGDS Pipes are generally made as per IS:15328. The said IS prescribes usage of Rubber Rings as per IS:5382-1985.
FRP Pipe requires REKA Rings at its joints for fitting. It is recommended to use these rings as per IS:5382:1985.
Cast Iron Detachable (CID) joints are used to connect Asbestose Cement Pressure Pipes. These CID joints require Rubber Rings as per IS:12988 which prescribes quality of such Rubber Rings as per IS:5382-1985.
We have RCC Pipe Rings : - Vertical casted Pipes (NP3 & NP4 Type) - Horizontal casted Pipes (NP3 & NP4 Type - Horizontal casted Pipes (NP2 & P1 TYPE) - Horizontal casted Pipes (P2 TYPE) - Horizontal casted Pipes (P3 Type)
Glass Fibre Reinforced Plastics(GRP) pipes, joints and fittings are made as per IS 14402 (Pipes used for Sewerage, Industrial Water and Water (other than Portable) and IS 12709 (Pipes used for Portable Water Supply). The said IS prescribes usage of Sealing Rings as per IS 5382. We have different ring designs to suit specific socket design
Mechanical Joint of Cast Iron Pipes require rings as per IS:12820 which recommends usage of Rubber Rings as per IS:5382-1985 Type IV.
Lip Seal are generally made as per BS EN 681:1996. The said standard is for pipe joint seals used in water & drainage application.