| PIBSA 1000HR | Univar Solutions | PIBSA 1000HR is reacted from 1000 molecular weight highly reactive polyisobutylene. PIBSA 1000HR is produced via the thermal process and has no residual chlorine. It has applications directly and/or as an intermediate in the synthesis of products used as ...view more PIBSA 1000HR is reacted from 1000 molecular weight highly reactive polyisobutylene. PIBSA 1000HR is produced via the thermal process and has no residual chlorine. It has applications directly and/or as an intermediate in the synthesis of products used as surfactants in varying industries including mining and blasting, metal working, water treatment, fuel additive detergents, engine oil additive dispersants and oil & gas applications. view less | Request Sample |
| PIBSA 1300HR | Univar Solutions | PIBSA 1300HR is reacted from 1300 molecular weight highly reactive polyisobutylene. PIBSA 1300HR is produced via the thermal process and has no residual chlorine. It has applications directly and/or as an intermediate in the synthesis of products used as ...view more PIBSA 1300HR is reacted from 1300 molecular weight highly reactive polyisobutylene. PIBSA 1300HR is produced via the thermal process and has no residual chlorine. It has applications directly and/or as an intermediate in the synthesis of products used as surfactants in varying industries including mining and blasting, metal working, water treatment, fuel additive detergents, engine oil additive dispersants and oil & gas applications. view less | Request Sample |
| PIBSA 2300HR | Univar Solutions | PIBSA 2300HR is reacted from 2300 molecular weight highly reactive polyisobutylene. PIBSA 2300HR is produced via the thermal process and has no residual chlorine. It has applications directly and/or as an intermediate in the synthesis of products used as ...view more PIBSA 2300HR is reacted from 2300 molecular weight highly reactive polyisobutylene. PIBSA 2300HR is produced via the thermal process and has no residual chlorine. It has applications directly and/or as an intermediate in the synthesis of products used as surfactants in varying industries including mining and blasting, metal working, water treatment, fuel additive detergents, engine oil additive dispersants and oil & gas applications. view less | Request Sample |
| PIBSA 450HR | Univar Solutions | PIBSA 450HR is reacted from 450 molecular weight highly reactive polyisobutylene. PIBSA 450HR is produced via thermal process and has no residual chlorine. It has applications directly and/or as an intermediate in the synthesis of products used as surfact...view more PIBSA 450HR is reacted from 450 molecular weight highly reactive polyisobutylene. PIBSA 450HR is produced via thermal process and has no residual chlorine. It has applications directly and/or as an intermediate in the synthesis of products used as surfactants in varying industries including mining and blasting, metal working, water treatment, fuel additive detergents, engine oil additive dispersants and oil & gas applications. view less | Request Sample |
| PIBSA 750HR | Univar Solutions | PIBSA 750HR is reacted from 750 molecular weight highly reactive polyisobutylene. PIBSA 750HR is produced via thermal process and has no residual chlorine. It has applications directly and/or as an intermediate in the synthesis of products used as surfact...view more PIBSA 750HR is reacted from 750 molecular weight highly reactive polyisobutylene. PIBSA 750HR is produced via thermal process and has no residual chlorine. It has applications directly and/or as an intermediate in the synthesis of products used as surfactants in varying industries including mining and blasting, metal working, water treatment, fuel additive detergents, engine oil additive dispersants and oil & gas applications. view less | Request Sample |
| PIBSI E1 1.0 | Univar Solutions | PIBSI E1 1.0 is an ashless dispersant – succinimide containing a typical nitrogen content of 1.0%. PIBSI E1 1.0 is derived from 2300 molecular weight highly reactive polyisobutylene succinic anhydride and ethyleneamine. Additive packages derived from PIBS...view more PIBSI E1 1.0 is an ashless dispersant – succinimide containing a typical nitrogen content of 1.0%. PIBSI E1 1.0 is derived from 2300 molecular weight highly reactive polyisobutylene succinic anhydride and ethyleneamine. Additive packages derived from PIBSI E1 1.0 have common applications in a broad range of fuel and lubricants. view less | Request Sample |
| PIBSI E1 1.2 | Univar Solutions | PIBSI E1 1.2 is an ashless dispersant – succinimide containing a typical nitrogen content of 1.2%. PIBSI E1 1.2 is derived from 2300 molecular weight highly reactive polyisobutylene succinic anhydride and ethyleneamine. Additive packages derived from PIBS...view more PIBSI E1 1.2 is an ashless dispersant – succinimide containing a typical nitrogen content of 1.2%. PIBSI E1 1.2 is derived from 2300 molecular weight highly reactive polyisobutylene succinic anhydride and ethyleneamine. Additive packages derived from PIBSI E1 1.2 have common applications in a broad range of fuel and lubricants. view less | Request Sample |
| PIBSI F1 2.0 | Univar Solutions | PIBSI F1 2.0 is an ashless dispersant – succinimide containing a typical nitrogen content of 2.0%. PIBSI F1 2.0 is derived from 1000 molecular weight highly reactive polyisobutylene succinic anhydride and ethyleneamine. Additive packages derived from PIBS...view more PIBSI F1 2.0 is an ashless dispersant – succinimide containing a typical nitrogen content of 2.0%. PIBSI F1 2.0 is derived from 1000 molecular weight highly reactive polyisobutylene succinic anhydride and ethyleneamine. Additive packages derived from PIBSI F1 2.0 have common applications in a broad range of fuel and lubricants. view less | Request Sample |
| PIBSI F1 3.2 | Univar Solutions | PIBSI F1 3.2 is an ashless dispersant – succinimide containing a typical nitrogen content of 3.2%. PIBSI F1 3.2 is derived from 1000 molecular weight highly reactive polyisobutylene succinic anhydride and ethyleneamine. Additive packages derived from PIBS...view more PIBSI F1 3.2 is an ashless dispersant – succinimide containing a typical nitrogen content of 3.2%. PIBSI F1 3.2 is derived from 1000 molecular weight highly reactive polyisobutylene succinic anhydride and ethyleneamine. Additive packages derived from PIBSI F1 3.2 have common applications in a broad range of fuel and lubricants. view less | Request Sample |
| PIBSI F1 3.9 | Univar Solutions | PIBSI F1 3.9 is an ashless dispersant – succinimide containing a typical nitrogen content of 3.9%. PIBSI F1 3.9 is derived from 1000 molecular weight highly reactive polyisobutylene succinic anhydride and ethyleneamine. Additive packages derived from PIBS...view more PIBSI F1 3.9 is an ashless dispersant – succinimide containing a typical nitrogen content of 3.9%. PIBSI F1 3.9 is derived from 1000 molecular weight highly reactive polyisobutylene succinic anhydride and ethyleneamine. Additive packages derived from PIBSI F1 3.9 have common applications in a broad range of fuel and lubricants. view less | Request Sample |
| PIBSI F2 5.0 | Univar Solutions | PIBSI F2 5.0 is an ashless dispersant – succinimide containing a typical nitrogen content of 5.0%. PIBSI F2 5.0 is derived from 1000 molecular weight highly reactive polyisobutylene succinic anhydride and ethyleneamine. Additive packages derived from PIBS...view more PIBSI F2 5.0 is an ashless dispersant – succinimide containing a typical nitrogen content of 5.0%. PIBSI F2 5.0 is derived from 1000 molecular weight highly reactive polyisobutylene succinic anhydride and ethyleneamine. Additive packages derived from PIBSI F2 5.0 have common applications in a broad range of fuel and lubricants. view less | Request Sample |
