This environmentally friendly, lead-free, self-lubricating metal-polymer bearing requires no additional lubricant. It combines a low-friction polytetrafluoroethylene (PTFE) bearing surface with the strength and dimensional stability of a metal backing. ※ Corresponding to the inch size.
Learn More >This self-lubricating metal-polymer bearing requires no additional lubricant. It combines a low-friction polytetrafluoroethylene (PTFE) bearing surface with the strength and dimensional stability of a metal backing. In addition it is moisture resistant, making it usable even in water.
Learn More >This is an environmentally friendly, lead-free bearing, the material structure of which consists of multiple layers of PTFE, porous intermediate layer and steel backing (similar to that of DDK05 dry bearings. Due to improved sliding and porous layers, boundary surface performance and fluid lubrication have also improved.
Learn More >The material structure of DDK06 consists of multiple layers of PTFE resin, porous intermediate layer and steel backing (similar to that of DDK05 dry bearings). Due to the improved sliding and porous layers, boundary surface performance and fluid lubrication are also improved.
Learn More >This material consists of a copper-tin-lead alloy sintered onto a steel backing, and the bearing surface is a mixture of polytetrafluoroethylene resin (PTFE), lead/tin and a special filler. The bearing exhibits excellent durability under boundary and fluid lubrication conditions and has good sliding characteristics due to the PTFE/lead/tin mixture, special filler, strength of the metal material and dimensional stability.
Learn More >This is an environmentally friendly, lead-free bearing material. Copper-tin alloy is sintered onto steel backing, and the bearing surface is a mixture of polytetrafluoroethylene (PTFE) and a special filler. The bearing exhibits excellent durability under boundary and fluid lubrication conditions and has excellent load- carrying capacity due to PTFE, the special filler, strength of the metal material and dimensional stability.
Learn More >This environmentally friendly, lead- free polymer bearing material consists of polytetrafluoroethylene (PTFE) with a special filler. It has excellent low friction and wear resistance properties at relatively low loads due to the effect of the filler. Its chemical resistance and corrosion resistance are also excellent, and it can be used even in corrosive liquids and sea water. It conforms to
Learn More >This environmentally friendly, lead-free polymer bearing material consists of polyester elastomer resin with a special filler. It has excellent flexibility and friction characteristics.
Learn More >This environmentally friendly, lead-free polymer bearing material consists of polyetheretherketone resin (PEEK), a superior performing engineering plastic, fiber reinforcing material and a special filler. With the highest heat resistance among thermoplastic resins, PEEK also provides high strength, chemical resistance and excellent sliding characteristics.
Learn More >THERMALLOY TYPE D bearings are available in bronze alloys as finished bushings and other standard parts. Lead-bronze products are made to order and do not comply with RoHS or ELV regulations.
Learn More >THERMALLOY TYPE T is a metallic self-lubricating bearing material in which a solid lubricant, mainly graphite, is evenly dispersed throughout various base metals. Type T is a special Thermalloy grade that can be used under wider conditions. The base metals are composed of different types of materials such as bronze, iron and nickel, and a solid lubricant can be selected
Learn More >THERMALLOY TYPE TM is made from a material that is highly resistant to corrosion and wear in high-temperature oxidative environments.
Learn More >THERMALLOY TYPE BB is a steel- backed material with a TYPE D material lining (B1/6, B1/8 or BL2/8). It is suitable for use under high loads in a confined space. Dimensions of materials and wrapped bushes for sliding plates have been standardized.
Learn More >THERMALLOY TYPE PV PLATE is bimetal sliding parts made from an alloy containing solid lubricant sintered onto a steel backing.
Learn More >THERMALLOY PILLOW UNIT is a self-aligning, lubrication-free bearing unit comprised of an outer ring of THERMALLOY high-performance bearing material and a stainless steel inner ring incorporated into a stainless steel bearing box.
Learn More >DAISLIDE is a copper-based self-lubricating bearing for heavy load applications into which solid lubricant plugs are embedded.
Learn More >This is a bearing material in which aluminum alloy and copper alloy comprise a two- or three-layer structure with a steel backing. This structure, whose mechanical strength is high, can be used under lubricated conditions and high-speed/high-load operation. It can be made from a variety of different materials, depending on the application, use conditions and lubrication. Load capability can be
Learn More >Complex bearings can be produced with our deep drawing and machine processing technologies. By bonding a bearing material to the sliding surface of a product, it is possible to provide complex functionality.
Learn More >Compressor and pump bearings for supporting rotating shafts of turbomachinery used in chemical and water treatment plants.
Learn More >This high-performance pump provides discharge pressure of 1.5 MPa. It is available with various rotors for pumping different types of liquids.
Learn More >A drum feeder is a system for removing a drum containing an RP pump. Because the pump is located near the liquid level of the drum feeder, which automatically carries solutions to the next process and whose operational efficiency is high, even a highly viscous liquid can be easily drawn to the bottom of the carrying drum. The drum does
Learn More >A concentrated lubrication system, which dispenses a specific amount of oil at certain intervals, or a resistance type, from which the amount of oil discharged to the supply point is determined by the type of distributor used.
Learn More >Electrode sheet for capacitors, including lithium ion, features high density, accuracy, endurance and reliability. It uses a PTFE binder for which the molding, rolling and bonding technology is based on the same technology employed in our mass production of bearings for automotive, marine and general industrial equipment.
Learn More >For a better online experience with Daido Metal Co., Ltd., it is recommended you upgrade your browser to its latest version today.
You may see this message if you are using an outdated or unsupported browser.