R. Intrater scite author profile

R. Intrater

5Publications

63Citation Statements Received

0Citation Statements Given

How they've been cited

117

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Affiliations

Israel Aerospace Industries (Israel), Technion – Israel Institute of Technology

Publications

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Mode I interlaminar fracture toughness of Nylon 66 nanofibrilmat interleaved carbon/epoxy laminates

et al. 2011

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Carbon/epoxy laminates interleaved with laboratory scale electrospun Nylon 66 nanofibrilmat and spunbonded nonwoven mats were investigated. The effect of the nanoscale fibers on the fracture toughness of the composite under pure Mode I loading was evaluated. It was shown that the nanofibrilmat is responsible for a major interlaminar fracture toughness improvement, as high as 255–322%, compared to a noninterleaved carbon/epoxy reference laminate. We further studied the improvement mechanism of the electrospun nanofibrilmat compared to a commercial spunbonded nonwoven Nylon 66 mat. A combination of two interlayer fracture mechanisms responsible for the toughness improvement is suggested: the first is related to the high energy dissipated by bridged thermoplastic nanofibers and the second is attributed to the generation of a plastic zone near the crack tip. The interlaminar fracture mechanisms of both electrospun nanofibrilmat and the nonwoven mat interleaving was analyzed and discussed. POLYM. COMPOS., 2011. © 2011 Society of Plastics Engineers

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Simulated Low Earth Orbit Environment Interaction with Different Types of Polyethylene

Intrater¹,

Lempert²,

Gouzman³

et al. 2004

High Performance Polymers

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The present study investigated the interactions of four different types of polyethylene (PE) surfaces with RF oxygen plasma components, simulating the low Earth orbit (LEO) environment. The samples were exposed in the plasma afterglow, with and without the plasma-generated vacuum UV (VUV) radiation. The polymers studied were low-density polyethylene (LDPE), ultra high molecular weight polyethylene (UHMWPE), high-density polyethylene (HDPE), and a composite of highly-oriented fibres of ultra-high molecular weight polyethylene (PolyEitan) having crystalline-to-amorphous phases ratio of 65, 74, 87 and 92%, respectively. Erosion of the LDPE, UHMWPE, and HDPE samples under atomic oxygen (AO) irradiation showed an etching rate dependence on the degree of crystallinity - the higher the crystallinity level the lower the erosion rate. The addition of VUV radiation to the AO flux resulted in a significant increase of the etching rate. An increase of the crystallinity level resulted in a decrease of the total oxygen uptake and an increase of the surface roughness. The composite polyethylene, although highly crystalline, revealed similar erosion rate and chemical composition changes as highly amorphous LDPE. The erosion mechanism of the different PE samples under AO or AO+VUV is discussed in terms of the initial internal structure.

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Visualization of polyethylene fibers surface restructuring induced by oxygen plasma

Intrater

Hoffman

Lempert³

et al. 2005

J Mater Sci

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Effect of imaging techniques on the observed surface morphology of oxygen plasma etched polyethylene fibres

Intrater¹,

Hoffman²,

Lempert³

et al. 2006

Polymer Degradation and Stability

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Electrochemical parameters for electrodeposition of compositionally modulated alloys of iron-copper

Intrater

Yahalom

1993

J Mater Sci Lett

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R. Intrater

Mode I interlaminar fracture toughness of Nylon 66 nanofibrilmat interleaved carbon/epoxy laminates

Simulated Low Earth Orbit Environment Interaction with Different Types of Polyethylene

Visualization of polyethylene fibers surface restructuring induced by oxygen plasma

Effect of imaging techniques on the observed surface morphology of oxygen plasma etched polyethylene fibres

Electrochemical parameters for electrodeposition of compositionally modulated alloys of iron-copper

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