High Compression Resistance Crane Leg Pad, Polyethylene Leg Pad Shandong Ningjin Xinxing Chemical Co., Ltd. specializes in production!!
Dear Customer, Hello:
First of all, thank you for visiting our company's website, and I extend my sincere greetings to you! Shandong Ningjin Xinxing Chemical Co., Ltd. is at your service!
If you have any needs or better suggestions, please contact us by phone!
Mobile: 13173333540
Landline: 0534-5223277
Online QQ: 2875013107
Email: xxhgzlz@163.com
Company Website: www.sdxxhg.com
Zhang Longzhen from Shandong Xinxing Chemical will sincerely serve you!!
Detailed Description of High Compression Resistance Crane Leg Pad, Polyethylene Leg Pad:
The crane leg pad is a type of ultra-high molecular weight polyethylene engineeringplastic, mainly used as a support pad under the legs ofengineering machinery, providing support. The leg pad has high strength and rigidity, which reduces the deformation of the pad body under load, providing a more stable supporting force for engineering machinery. This greatly saves usage costs and improves work quality. The leg pad consists of a plate-shaped pad body and a carrying rope. The plate-shaped pad body is made ofUHMW/HDPEsynthetic high polymer materials. The four corners of the pad support60mmpressure of15-18tons/cm²or more, can be used normally in harsh environments, and can withstand overload without breaking. The carrying rope is made of nylon, and its ends are embedded in the pad body for easy transport and placement.
The largest national production base for crane leg pads, a manufacturer of high molecular polyethylene leg pads, is a company producing ultra-high molecular weight polyethylene boards aiming for the top 500. Main products include: ultra-high molecular weight polyethylene boards, high molecular polyethylene boards, high molecular polyethylene wear-resistant liners, high wear resistance coal bin liners, fender face plates, UHMW_PE boards, dock anti-collision plates, coal bin liners, PE endurance plates, and various processed special parts of high molecular polyethylene, etc.
Special Properties of High Compression Resistance Crane Leg Pad, Polyethylene Leg Pad:
Performance: 1. The wear resistance of ultra-high molecular weight polyethylene boards ranks first among plastics, and the larger the molecular weight, the higher the material's wear resistance and impact resistance;
2. The impact strength of ultra-high molecular weight polyethylene boards is high among existing plastics, and even at 70℃, there is still a considerable high impact strength;
3. Self-lubricating, low friction coefficient, energy-saving, with a wax-like feel.
4. Extremely low water absorption. Therefore, its physical and mechanical properties are not affected by humidity factors in working conditions.
5. Ultra-high molecular weight polyethylene boards have chemical stability, can resist corrosion from acids, alkalis, salts, and various corrosive media and organic solvents within certain temperature and concentration ranges.
6. Ultra-high molecular weight polyethylene boards are odorless, non-toxic, and non-corrosive, exhibiting physiological circulation and physiological adaptability.
7. Non-adhesive;
8. When the molecular weight of high-density polyethylene exceeds 500,000, the embrittlement temperature drops to 140℃. Ultra-high molecular weight polyethylene can even be used at temperatures as low as -269℃ under liquid nitrogen, maintaining certain mechanical strength.
Ultra-high molecular weight polyethylene leg pads have better wear resistance and compression resistance compared to the previously used wooden and iron pads. They are lightweight, easy to transport, more convenient to use, increase work efficiency, and extend the service life of the pads.
The ultra-high molecular weight polyethylene leg pads and anti-slip ring pads produced by Shandong Ningjin Xinxing Chemical Co., Ltd. solve the issues of high cost, low wear resistance, heavy weight, and short lifespan of previous wooden and steel pads. They are highly favored and loved by many users! We hope that many users will call for inquiries.
