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POLYURETHANE
Entegral
Viscoelastik
Bekleme Koltukları
Dışında iç yapıya göre daha sert ve yoğun deri tabakası bulunan, aşınmaya karşı dirençli ve ayarlanabilir sertlikte iç yapısı olan bir poliüretan türüdür. Kullanım yeri örnekleri arasında koltuk kolçakları, otomobil ön paneli, oturak ve sırtlık minderi olarak hava alanı veya benzer bekleme koltukları, yakıt deposu titreşim önleyici takozları sayılabilir. Üretimimizden örnekleri aşağıdaki fotoğraflarda görebilirsiniz.
Seats
Polyurethane integral foam is produced by a chemical reaction between polyols and isocyanates.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Shaft Area Fillers
Polyurethane integral foam is produced by a chemical reaction between polyols and isocyanates.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Bekleme Koltukları
Dışında iç yapıya göre daha sert ve yoğun deri tabakası bulunan, aşınmaya karşı dirençli ve ayarlanabilir sertlikte iç yapısı olan bir poliüretan türüdür. Kullanım yeri örnekleri arasında koltuk kolçakları, otomobil ön paneli, oturak ve sırtlık minderi olarak hava alanı veya benzer bekleme koltukları, yakıt deposu titreşim önleyici takozları sayılabilir. Üretimimizden örnekleri aşağıdaki fotoğraflarda görebilirsiniz.
Seats
Polyurethane integral foam is produced by a chemical reaction between polyols and isocyanates.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Shaft Area Fillers
Polyurethane integral foam is produced by a chemical reaction between polyols and isocyanates.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Bekleme Koltukları
Dışında iç yapıya göre daha sert ve yoğun deri tabakası bulunan, aşınmaya karşı dirençli ve ayarlanabilir sertlikte iç yapısı olan bir poliüretan türüdür. Kullanım yeri örnekleri arasında koltuk kolçakları, otomobil ön paneli, oturak ve sırtlık minderi olarak hava alanı veya benzer bekleme koltukları, yakıt deposu titreşim önleyici takozları sayılabilir. Üretimimizden örnekleri aşağıdaki fotoğraflarda görebilirsiniz.
Seats
Polyurethane integral foam is produced by a chemical reaction between polyols and isocyanates.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Shaft Area Fillers
Polyurethane integral foam is produced by a chemical reaction between polyols and isocyanates.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Bekleme Koltukları
Dışında iç yapıya göre daha sert ve yoğun deri tabakası bulunan, aşınmaya karşı dirençli ve ayarlanabilir sertlikte iç yapısı olan bir poliüretan türüdür. Kullanım yeri örnekleri arasında koltuk kolçakları, otomobil ön paneli, oturak ve sırtlık minderi olarak hava alanı veya benzer bekleme koltukları, yakıt deposu titreşim önleyici takozları sayılabilir. Üretimimizden örnekleri aşağıdaki fotoğraflarda görebilirsiniz.
Seats
Polyurethane integral foam is produced by a chemical reaction between polyols and isocyanates.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Shaft Area Fillers
Polyurethane integral foam is produced by a chemical reaction between polyols and isocyanates.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Bekleme Koltukları
Dışında iç yapıya göre daha sert ve yoğun deri tabakası bulunan, aşınmaya karşı dirençli ve ayarlanabilir sertlikte iç yapısı olan bir poliüretan türüdür. Kullanım yeri örnekleri arasında koltuk kolçakları, otomobil ön paneli, oturak ve sırtlık minderi olarak hava alanı veya benzer bekleme koltukları, yakıt deposu titreşim önleyici takozları sayılabilir. Üretimimizden örnekleri aşağıdaki fotoğraflarda görebilirsiniz.
Seats
Polyurethane integral foam is produced by a chemical reaction between polyols and isocyanates.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Shaft Area Fillers
Polyurethane integral foam is produced by a chemical reaction between polyols and isocyanates.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Bekleme Koltukları
Dışında iç yapıya göre daha sert ve yoğun deri tabakası bulunan, aşınmaya karşı dirençli ve ayarlanabilir sertlikte iç yapısı olan bir poliüretan türüdür. Kullanım yeri örnekleri arasında koltuk kolçakları, otomobil ön paneli, oturak ve sırtlık minderi olarak hava alanı veya benzer bekleme koltukları, yakıt deposu titreşim önleyici takozları sayılabilir. Üretimimizden örnekleri aşağıdaki fotoğraflarda görebilirsiniz.
Seats
Polyurethane integral foam is produced by a chemical reaction between polyols and isocyanates.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Shaft Area Fillers
Polyurethane integral foam is produced by a chemical reaction between polyols and isocyanates.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Bekleme Koltukları
Dışında iç yapıya göre daha sert ve yoğun deri tabakası bulunan, aşınmaya karşı dirençli ve ayarlanabilir sertlikte iç yapısı olan bir poliüretan türüdür. Kullanım yeri örnekleri arasında koltuk kolçakları, otomobil ön paneli, oturak ve sırtlık minderi olarak hava alanı veya benzer bekleme koltukları, yakıt deposu titreşim önleyici takozları sayılabilir. Üretimimizden örnekleri aşağıdaki fotoğraflarda görebilirsiniz.
Seats
Polyurethane integral foam is produced by a chemical reaction between polyols and isocyanates.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Shaft Area Fillers
Polyurethane integral foam is produced by a chemical reaction between polyols and isocyanates.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Bekleme Koltukları
Dışında iç yapıya göre daha sert ve yoğun deri tabakası bulunan, aşınmaya karşı dirençli ve ayarlanabilir sertlikte iç yapısı olan bir poliüretan türüdür. Kullanım yeri örnekleri arasında koltuk kolçakları, otomobil ön paneli, oturak ve sırtlık minderi olarak hava alanı veya benzer bekleme koltukları, yakıt deposu titreşim önleyici takozları sayılabilir. Üretimimizden örnekleri aşağıdaki fotoğraflarda görebilirsiniz.
Seats
Polyurethane integral foam is produced by a chemical reaction between polyols and isocyanates.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Shaft Area Fillers
Polyurethane integral foam is produced by a chemical reaction between polyols and isocyanates.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Bekleme Koltukları
Dışında iç yapıya göre daha sert ve yoğun deri tabakası bulunan, aşınmaya karşı dirençli ve ayarlanabilir sertlikte iç yapısı olan bir poliüretan türüdür. Kullanım yeri örnekleri arasında koltuk kolçakları, otomobil ön paneli, oturak ve sırtlık minderi olarak hava alanı veya benzer bekleme koltukları, yakıt deposu titreşim önleyici takozları sayılabilir. Üretimimizden örnekleri aşağıdaki fotoğraflarda görebilirsiniz.
Seats
Polyurethane integral foam is produced by a chemical reaction between polyols and isocyanates.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Shaft Area Fillers
Polyurethane integral foam is produced by a chemical reaction between polyols and isocyanates.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Bekleme Koltukları
Dışında iç yapıya göre daha sert ve yoğun deri tabakası bulunan, aşınmaya karşı dirençli ve ayarlanabilir sertlikte iç yapısı olan bir poliüretan türüdür. Kullanım yeri örnekleri arasında koltuk kolçakları, otomobil ön paneli, oturak ve sırtlık minderi olarak hava alanı veya benzer bekleme koltukları, yakıt deposu titreşim önleyici takozları sayılabilir. Üretimimizden örnekleri aşağıdaki fotoğraflarda görebilirsiniz.
Seats
Polyurethane integral foam is produced by a chemical reaction between polyols and isocyanates.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Shaft Area Fillers
Polyurethane integral foam is produced by a chemical reaction between polyols and isocyanates.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Flexible polyurethane foam is used as cushioning for a variety of consumer and commercial products, including bedding, furniture, automotive interiors, carpet underlay and packaging. Flexible foam can be created in almost any variety of shapes and firmness. It is light, durable, supportive and comfortable.
Rigid Semi Rigid
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
Pu Elastomer
-Range of hardness from 10 Shore A (soft rubber) to 85 Shore D (nylon).
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.
-Abrasion resistance: exceptional durability with considerable saving in spare parts, downtime of labour and equipment, especially if compared with rubber, plastics or metals.
Possible optimization to better stand: friction, sliding abrasion, impact.
-High load resistance: compound can be formulated to stand deformation due to high pressure and compression.
-Chemical resistance: excellent resistance to most of oils and aliphatic solvents, and animal or vegetable oils.