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.
Rubber Moulds for Drain Covers
We have PVC Cover Block Moulds in various designs.
Soft PVC Moulds for Cover Blocks
We have different Ring designs to suit customer specific socket design.
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.
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.
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.
With 35 years of experience in Rubber Industry, Ashutosh Rubber has become a leading manufacturer of Rubber & PVC Molds for all types of Cement Concrete Products.
Ashutosh Rubber Pvt. Ltd. has various designs in PVC Moulds like Square, Colorado, Euphrates, Square with slot & Arrow.
We have PVC Molds in various designs.
PVC Moulds in different designs like Brooks, Parachute, Wave Square & Grass Paver.
Rubber Moulds For Manhole Covers
We invite you to fulfil your requirement of Moulds for Manhole Covers in a variety of designs and sizes.
Firewood BIRCH 25 L (pcs). One of the main properties of firewood is heat (calorific value). Calorific value is the size that indicates how much energy a certain amount of burnt firewood emits. Firewood is divided into three groups of heat: The first group of heat is wood of oak, ash, birch, hornbeam, maple, elm, with a calorific value of 2250 to 2500 kcal. The second group of heat is black alder, pine firewood, the caloric content of which is from 1800 to 1900 kcal. The third group of heat is firewood of alder, aspen, linden, willow, spruce, poplar, with a calorific value of 1500 to 1700 kcal. Firewood of the first group of heat is the most incandescent, so it is best suited for loaded boilers of higher power, but it is not recommended to fire clay or ovens, since too high combustion temperatures can lead to cracking of cocci or the furnace itself. We offer broken dried firewood from birch, ash, alder, black alder, aspen wood, neatly placed in rows in wooden containers. The density of the volume of neatly stacked firewood is significantly higher than that of smashed firewood. The volume of one container is 1.5 m3 and corresponds to 2 m3 of the volume of combined firewood. Firewood containers in your yard ?less busy space, garbage, handling after stacking firewood in a firewood shed. Wooden containers can also replace firewood, just by placing them in the yard in the desired place and covering their top with any coating. The advantage of the firewood we offer: *there is no need to overload the translated firewood; *unloading in a place convenient for you (firewood, pantry, etc.); *wooden containers remain with the customer; *quality firewood in convenient packaging at a low price. We can also offer dry split firewood in bags of 25 ltr. and 40 ltr each.
Product Application: Applied to the first groove of aluminum pistons in internal combustion engines, primarily used in diesel engine aluminum pistons, with aftermarket sales predominating. Features: 1. Integration of Wear-Resistant Insert Rings with Internal Cooling Channels through brackets offers several advantages over pistons simultaneously using insert rings and salt cores: (1) Single positioning reduces operational and process difficulties and CT time, improving production efficiency. (2) Before casting, simple shot blasting and preheating of wear-resistant insert rings are sufficient, eliminating the need for separate treatment (3) Reduces quality loss caused by using salt cores, enhancing piston yield.(4) Decreases flushing procedures and costs associated with salt cores. (5) Minimizes wastewater handling and management. 2. Customized Design: Tailored design of bracket-type internal cooling channel wear-resistant insert rings to meet diverse piston and industry requirements, ensuring optimal adaptability. 3. Material: The wear-resistant insert rings are made of high-nickel austenitic cast iron, while aluminum pistons are typically made of silicon-aluminum alloy. Their similar coefficients of expansion form the basis for the application of wear-resistant insert rings in the first groove of pistons. Wear Resistance: High-nickel austenitic cast iron exhibits outstanding wear resistance, optimizing friction with piston rings at high temperatures, thereby increasing piston lifespan. Thermal Conductivity: The material boasts excellent thermal conductivity, facilitating heat transfer and dissipation to maintain piston head temperature within a reasonable range. Corrosion Resistance: Strong corrosion resistance enables adaptation to various working environments, ensuring stability under different conditions. Environmental Friendliness: Prolonging piston lifespan ensures combustion chamber sealing during piston operation, enhancing combustion efficiency, and reducing exhaust emissions. Precision Machining: Precise machining techniques during manufacturing ensure products meet design requirements, enhancing performance.
Product Application: Used in the first groove of aluminum pistons in internal combustion engines, initially applied to diesel engine aluminum pistons, with wear-resistant insert rings widely used and promoted on gasoline engine aluminum pistons in recent years as industry demands for gasoline engine pistons have increased. Features: Compared to traditional aluminum pistons, pistons with insert rings have seen an average increase in lifespan of 5-8 times, enhancing energy utilization and combustion efficiency, while reducing emissions. Additionally, it significantly improves the performance and reliability of internal combustion engines. Material: The wear-resistant insert rings are made of high-nickel austenitic cast iron, while aluminum pistons are typically made of silicon-aluminum alloy. Their similar coefficients of expansion form the basis for the application of wear-resistant insert rings in the first groove of pistons. Wear Resistance: High-nickel austenitic cast iron exhibits outstanding wear resistance, optimizing friction with piston rings at high temperatures, thereby increasing piston lifespan. Thermal Conductivity: The material boasts excellent thermal conductivity, facilitating heat transfer and dissipation to maintain piston head temperature within a reasonable range. Corrosion Resistance: Strong corrosion resistance enables adaptation to various working environments, ensuring stability under different conditions. Environmental Friendliness: Prolonging piston lifespan ensures combustion chamber sealing during piston operation, enhancing combustion efficiency, and reducing exhaust emissions. Precision Machining: Precise machining techniques during manufacturing ensure products meet design requirements, enhancing performance.