Brent A. Nerenz scite author profile

Brent A. Nerenz

4Publications

34Citation Statements Received

30Citation Statements Given

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North Dakota State University

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Comparison of curing agents for epoxidized vegetable oils applied to composites

et al. 2011

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Interest in polymers from renewable sources, as alternatives to petroleum‐based polymers, remains strong; however, their performance must be acceptable. To improve performance of epoxidized vegetable oils (EVO) in composite matrix applications, five amine curing agents were evaluated and compared with an anhydride agent used previously. Curing agents were tested in matrices for composites containing a petroleum‐based epoxy resin plus 0% or 30% epoxidized oil from canola (ECO) and soybean (ESO). The two amines with the highest glass transition temperature, determined by differential scanning calorimetry, were selected for characterization by dynamic mechanical analysis; bis (p‐aminocyclohexyl) methane (PACM) showed the highest performance. Amine: epoxy ratios 0.6 to 1.6 were then evaluated; ratios of 0.8 and 1.0 showed superior performance. E‐glass fiber reinforced composites with PACM/EVO showed thermal and mechanical performance slightly lower than the composites with 0% EVO and comparable with those of the anhydride curing agent. Therefore, ECO or ESO blended with petroleum‐based epoxy resins cured with PACM are recommended for its application in E‐glass reinforced composites. POLYM. COMPOS., 2011. © 2011 Society of Plastics Engineers

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Processing and Characterization of a Polypropylene Biocomposite Compounded with Maleated and Acrylated Compatibilizers

Nerenz

Fuqua

Chevali

et al. 2012

International Journal of Polymer Science

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Polypropylene (PP) biocomposites containing 20 wt.% sunflower hull as a particulate reinforcement were compounded and tested under tensile, flexural, and impact loadings. The incorporation of the sunflower hull without compatibilizer resulted in diminished tensile strength and impact energy absorption but increased flexural strength and both tensile modulus and flexural modulus when compared to neat PP. Formulations containing three different chemical compatibilizers were tested to determine their effectiveness in improving the interfacial adhesion between the fiber surface and PP chains. Maleic anhydride grafted with PP (MA-g-PP) achieved greater improvements in tensile strength but reduced impact strength in comparison to an acrylic-acid-grafted PP compatibilizer (AA-g-PP). The molecular weight, graft level, and the ability to affect strength, modulus, and absorbed impact energy were also investigated for the compatibilizers. A MA-g-PP having high molecular weight and low graft level was most effective in improving the investigated properties of a sunflower hull-reinforced polypropylene biocomposite.

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Mechanical Properties of Hybrid Lignocellulosic Fiber-Filled Acrylonitrile Butadiene Styrene (ABS) Biocomposites

Chevali

Nerenz

Ulven

et al. 2014

Polymer-Plastics Technology and Engineering

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Acrylonitrile Butadiene Styrene (ABS)/Lignocellulosic Fiber Biocomposite: Effect of Artificial Weathering on Impact Properties

Chevali¹,

Nerenz²,

Ulven³

2012

J Biobased Mat Bioenergy

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Brent A. Nerenz

Comparison of curing agents for epoxidized vegetable oils applied to composites

Processing and Characterization of a Polypropylene Biocomposite Compounded with Maleated and Acrylated Compatibilizers

Mechanical Properties of Hybrid Lignocellulosic Fiber-Filled Acrylonitrile Butadiene Styrene (ABS) Biocomposites

Acrylonitrile Butadiene Styrene (ABS)/Lignocellulosic Fiber Biocomposite: Effect of Artificial Weathering on Impact Properties

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