D. R. Hazelton scite author profile

D. R. Hazelton

5Publications

11Citation Statements Received

0Citation Statements Given

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Intersil (United States), Linde (United States)

Publications

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Chemical Surface Treatments of Natural Rubber and EPDM Thermoplastic Elastomers: Effects on Friction and Adhesion

Ellul¹,

Hazelton²

1994

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Natural rubber thermoplastic elastomers (NRTPEs) made by dynamic vulcanization of natural rubber during its mixing with polypropylene were subjected to various halogenation surface treatments. Marked reduction in the coefficient of friction is possible depending on the chemical treatment employed, TPE composition and the presence of a lubricant. As a result of halogenation there is an increase in the microroughness and hardness of the NRTPE surface. These effects in part explain the large decrease in the friction coefficients since the contact area is decreased. Thus NRTPE can be employed in applications requiring low friction, such as certain types of seals. Another consequence of halogenation of NRTPE is the increase in its surface energy which in turn promotes adhesion to various polar substrates. Indeed it was determined that halogenation of NETPE is an effective way of priming the surface of these materials for adhesion to acrylic and other substrates. Ethylene Propylene Diene Monomer rubber-Polypropylene thermoplastic elastomers (EPTPEs) were used as a control in this study to assess how a low unsaturation EPDM-based TPE compares with the high unsaturation NRTPEs in different halogenation surface treatments.

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Compounding EPDM for Dynamics Applications

Hazelton

Puydak

1971

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Strain Dependence of Bi-2223 Tape Conductors for Application in High Field Magnets

Sciver

Hascicek

Markiewicz

et al. 1993

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Ethylene Propylene Elastomer Technology for Improved High Temperature Serviceability

Auda¹,

Hazelton²

1975

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Polyester in Reinforced EPDM—Factors Affecting Thermal Degradation

Shinada¹,

Hazelton²,

Kagaku³

1978

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Polyester cord strength loss in EPDM depends on three factors: the presence of moisture, the nature of the cure system, and the aging environment. Of these factors, moisture is most critical. Cord degradation is caused by hydrolysis and is catalyzed by amine or amine-like compounds formed from the curvatives. High temperature also accelerates the deterioration. Knowledge of the service environment is required to decide whether PET may be used to reinforce EPDM. Moisture has a very harmful effect on PET degradation, and a dry environment increases service life substantially. The most feasible method of controlling PET cord strength loss is via curative choice to minimize or avoid nitrogen-containing curatives. Use of desiccant to remove moisture gives no improvement under normal service conditions. “Amino Nitrogen Index” is shown to be useful in formulating EPDM cure systems which have least effect on PET. Systems with an ANI of less than 6 give satisfactory performance. Curatives and accelerators commonly used in EPDM can be ranked according to this concept to aid future compound development. The peroxide system is suggested for maximum heat and compression set resistance. Based on the laboratory performance level of commercial EPDM/cord systems, PET can be used in properly-compounded EPDM at temperatures to 125°C in combined glycol/air and to 150°C in hot air. The cord strength loss of rayon, nylon, and aramid is independent of cure system amino nitrogen content. When the proper cure system is used, the durability of PET is comparable to aramid in hot air. PET is equivalent in performance to rayon and nylon up to 125°C in glycol/air, but far below aramid. Aramid, nylon, and rayon appear suitable for continuous exposure to 150°C glycol. However, in practical applications of these cords other factors such as intermittent environmental changes, dimensional stability, etc. must be considered.

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D. R. Hazelton

Chemical Surface Treatments of Natural Rubber and EPDM Thermoplastic Elastomers: Effects on Friction and Adhesion

Compounding EPDM for Dynamics Applications

Strain Dependence of Bi-2223 Tape Conductors for Application in High Field Magnets

Ethylene Propylene Elastomer Technology for Improved High Temperature Serviceability

Polyester in Reinforced EPDM—Factors Affecting Thermal Degradation

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