epdm-hdpe blends with different cure systems/mechanical
EPDM-HDPE Blends with Different Cure Systems/Mechanical
The EPDM/HDPE composites were obtained by different chemical methods of vulcanization and in different formula. All polymer samples have the same ratios (parts in weight) EPDM: HDPE: ZnO: Stearic acid: TMQ: Irganox 1010 = 50:50:5:0.4:1:1 and different ratios of cure agents. The cure systems used are shown in Table 1. We mentioned that when the ratio of sulfur to accelerator is less than one, the receipt is known as an Efficient Vulcanization (EV) system.
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EPDM-HDPE Blends with Different Cure Systems/Mechanical
Results indicated that polymer alloys EPDM/HDPE containing as cure agents Sulfur, TH and M, in a ratio cure accelerators/sulfur = 6.34 and 1.85, respectively, showed improved physico-mechanical ...
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EPDM-HDPE Blends with Different Cure Systems/Mechanical
Results indicated that polymer alloys EPDM/HDPE containing as cure agents Sulfur, TH and M, in a ratio cure accelerators/sulfur = 6.34 and 1.85, respectively, showed improved physico-mechanical properties as compared to the other polymer blends. This behavior was confirmed by the recorded ATR-FTIR spectra of the studied samples.
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EPDM-HDPE Blends with Different Cure Systems/Mechanical
Title: EPDM-HDPE Blends with Different Cure Systems/Mechanical and Infra-Red Spectrometric Properties: Authors:., Zenovia Moldovan; ., Florica Ionescu; ., Simona ...
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EPDM-HDPE Blends with Different Cure Systems/Mechanical
Results indicated that polymer alloys EPDM/HDPE containing as cure agents Sulfur, TH and M, in a ratio cure accelerators/sulfur = 6.34 and 1.85, respectively, showed improved physico-mechanical properties as compared to the other polymer blends.
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EPDM-HDPE Blends with Different Cure Systems/Mechanical
Results indicated that polymer alloys EPDM/HDPE containing as cure agents Sulfur, TH and M, in a ratio cure accelerators/sulfur = 6.34 and 1.85, respectively, showed improved physico-mechanical properties as compared to the other polymer blends. This behavior was confirmed by the recorded ATR-FTIR spectra of the studied samples.
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Mechanical Properties of EPDM/SBR Blends
Mechanical Properties of EPDM/SBR Blends Abstract The mechanical properties of EPDM/SBR blends were investigated with special reference to the effects of blend ratio and cross-linking systems. Among the blends, the one with 80/20 EPDM/SBR has been found to exhibit the highest tensile, tear, and abrasion properties at ambient temperature.
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HDPE-EPDM thermoplastic vulcanizates. Mechanical and IR
The polymer blends were obtained using binary vulcanizating accelerators systems. One of the components was tetramethylthiuram disulfide (TH) and the second one, 2-mercaptobenzothiazole (M) or 2,2 ...
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The Effect of the Vulcanizing System on Cure
curing systems for this blend. This paper deals with the effects of the curing system on the curing and mechanical properties of NBR/ EPDM blends in order to decide what should be the curing system with the best ability to crosslink both NBR and EPDM phases. For this purpose, MBTS and TMTD were employed either as a single accelerator
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Effects of curing conditions on the properties
Summary. The blends were prepared using a curing die where EPDM was cured with dicumyl peroxide (DCP) in the presence of HDPE at different shear rate. The pressure drop for the constant flow rate across the curing die increased with increasing DCP concentration and EPDM content and decreased with increasing shear rate in curing die.
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EPDM-HDPE Blends with Different Cure Systems/Mechanical
The EPDM/HDPE composites were obtained by different chemical methods of vulcanization and in different formula. All polymer samples have the same ratios (parts in weight) EPDM: HDPE: ZnO: Stearic acid: TMQ: Irganox 1010 = 50:50:5:0.4:1:1 and different ratios of cure agents. The cure systems used are shown in Table 1. We mentioned that when the ratio of sulfur to accelerator is less than one, the receipt is known as an Efficient Vulcanization (EV) system.
Send InquiryEPDM-HDPE Blends with Different Cure Systems/Mechanical
Results indicated that polymer alloys EPDM/HDPE containing as cure agents Sulfur, TH and M, in a ratio cure accelerators/sulfur = 6.34 and 1.85, respectively, showed improved physico- mechanical properties as compared to the other polymer blends. This behavior was confirmed by the recorded ATR-FTIR spectra of the studied samples.
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EPDM-HDPE Blends with Different Cure Systems/Mechanical
Results indicated that polymer alloys EPDM/HDPE containing as cure agents Sulfur, TH and M, in a ratio cure accelerators/sulfur = 6.34 and 1.85, respectively, showed improved physico-mechanical
Send Inquiry
EPDM-HDPE Blends with Different Cure Systems/Mechanical
Title: EPDM-HDPE Blends with Different Cure Systems/Mechanical and Infra-Red Spectrometric Properties: Authors:., Zenovia Moldovan; ., Florica Ionescu; ., Simona
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EPDM-HDPE Blends with Different Cure Systems/Mechanical
Results indicated that polymer alloys EPDM/HDPE containing as cure agents Sulfur, TH and M, in a ratio cure accelerators/sulfur = 6.34 and 1.85, respectively, showed improved physico-mechanical properties as compared to the other polymer blends. This behavior was confirmed by the recorded ATR-FTIR spectra of the studied samples.
Send Inquiry
EPDM-HDPE Blends with Different Cure Systems/Mechanical
Results indicated that polymer alloys EPDM/HDPE containing as cure agents Sulfur, TH and M, in a ratio cure accelerators/sulfur = 6.34 and 1.85, respectively, showed improved physico-mechanical properties as compared to the other polymer blends.
Send Inquiry
HDPE-EPDM thermoplastic vulcanizates. Mechanical and IR
The polymer blends were obtained using binary vulcanizating accelerators systems. One of the components was tetramethylthiuram disulfide (TH) and the second one, 2-mercaptobenzothiazole (M) or 2,2
Send Inquiry
The Effect of the Vulcanizing System on Cure
curing systems for this blend. This paper deals with the effects of the curing system on the curing and mechanical properties of NBR/ EPDM blends in order to decide what should be the curing system with the best ability to crosslink both NBR and EPDM phases. For this purpose, MBTS and TMTD were employed either as a single accelerator
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