Elastomeric Bearing Pad
Bearing pads are components designed to transfer loads and accommodate movement between a structure's superstructure and its supporting structure. They are typically made of elastomeric materials like rubber and steel. Their primary function is to distribute loads, allow for expansion and contraction, and reduce stress on the supporting structure.
Rubber Column Guard
A rubber column guard is a protective barrier, typically made of rubber, designed to shield columns and other structural elements from damage caused by impact, particularly from vehicles or other moving objects. They act as a buffer, absorbing the force of collisions and preventing damage to the column itself.
Rubber Dock Fender
A rubber dock fender is a protective device, usually made of rubber, that is installed on docks or ships to absorb the impact energy when a vessel berths or moors, preventing damage to both the vessel and the dock. They are often referred to as "bumpers" or "fenders".
Rubber Door Stopper
Rubber door stopper is a device, usually made of rubber or a similar material, that prevents a door from swinging too far open and hitting a wall or other object. It can be a heavy object, a wedge, or a projecting piece attached to the floor or wall. The primary function is to protect walls and doors from damage.
Rubber Ramp
A rubber ramp is a type of ramp, typically made of rubber or recycled rubber, used to bridge the gap between a surface and a raised area, such as a threshold or curb, to facilitate access for wheelchairs, scooters, or other mobility devices. These ramps are known for their durability, slip resistance, and ease of installation.
Rubber Roller
A rubber roller is a cylindrical machine component consisting of a core, typically made of steel or other rigid material, covered by a layer of rubber or other elastomeric material. This design provides flexibility and grip, making them useful for a wide range of applications like printing, paper making, and conveyor systems.
Rubber Round Pad
A "rubber round pad" refers to a circular piece of rubber, often used for specific purposes like protection, cushioning, or as part of a larger mechanism. It could be a small pad used under a furniture leg to prevent scratching, a larger pad used to absorb vibrations, or a component in a machine that requires a flexible, circular element.
Rubber Sheet
A rubber sheet is a flat sheet of rubber or fabric coated with rubber, used for various applications like mattress protection, industrial sealing, and more. It can be made from natural rubber or synthetic rubber and offers properties like resilience, non-slip qualities, and protection.
Silicone Hose
A silicone hose is a flexible tube made of silicone rubber, known for its heat resistance, chemical resistance, and durability. It's used in various applications like automotive, industrial, food & beverage, and medical fields due to its versatility and non-toxic nature. Silicone hoses can be found in everyday products like those used in food and beverage industries, where their ability to withstand high temperatures and resist contamination is crucial.
Silicone Strip
A silicone strip is a thin, flexible strip made of silicone, a synthetic material, typically used for scar management. It's designed to be worn over a scar to improve its appearance and potentially reduce pain and itching. Silicone strips are usually self-adhesive and can be cut to size.
Spider Coupling
A spider coupling, also known as a jaw coupling or elastomeric coupling, is a mechanical device that connects two shafts to transmit torque while accommodating misalignment. It consists of two metal hubs and a flexible spider element (made of rubber or polyurethane) that sits between them, absorbing shocks and vibrations. The spider element's flexibility allows for parallel, angular, and axial displacements between the shafts.
Vibration Isolator
A vibration isolator is a device or system designed to reduce the transmission of vibrations from a source to a target object or structure. It works by isolating the source from the target, thereby minimizing the transfer of vibration energy. This can be achieved through various methods, including using resilient materials like rubber or springs, or employing active control systems with sensors and actuators.
