Lee W. Kohlman scite author profile

Lee W. Kohlman

4Publications

133Citation Statements Received

38Citation Statements Given

How they've been cited

190

130

How they cite others

Affiliations

Ames Research Center, Glenn Research Center, University of Akron

Publications

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Parallel Hybrid Gas-Electric Geared Turbofan Engine Conceptual Design and Benefits Analysis

Lents¹,

Hardin²,

Rheaume³

et al. 2016

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The conceptual design of a parallel gas-electric hybrid propulsion system for a conventional single aisle twin engine tube and wing vehicle has been developed. The study baseline vehicle and engine technology are discussed, followed by results of the hybrid propulsion system sizing and performance analysis. The weights analysis for the electric energy storage & conversion system and thermal management system is described. Finally, the potential system benefits are assessed.

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Effects of hygrothermal cycling on the chemical, thermal, and mechanical properties of 862/W epoxy resin

Miller

Roberts

Bail

et al. 2012

High Performance Polymers

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The hygrothermal aging characteristics of an epoxy resin were characterized over 1 year, which included 908 temperature and humidity cycles. The epoxy resin quickly showed evidence of aging through color change and increased brittleness. The influence of aging on the material's glass transition temperature (T g ) was evaluated by Differential Scanning Calorimetry (DSC) and Dynamic Mechanical Analysis (DMA). The T g remained relatively constant throughout the year long cyclic aging profile. The chemical composition was monitored by Fourier Transform Infrared Spectroscopy (FTIR) where evidence of chemical aging and advancement of cure was noted. The tensile strength of the resin was tested as it aged. This property was severely affected by the aging process in the form of reduced ductility and embrittlement. Detailed chemical evaluation suggests many aging mechanisms are taking place during exposure to hygrothermal conditions. This paper details the influence of processes such as: advancement of cure, chemical degradation, and physical aging on the chemical and physical properties of the epoxy resin. IntroductionEpoxy resins constitute an important class of matrix material for the aerospace industry. These materials are generally easy to process and can be tailored to provide a wide range of chemical and physical properties (Ref. 1). Composites based on epoxy resins are often used in structural applications where environmental conditions can include cyclic exposure to high heat and humidity. Repeated exposure to temperature/humidity cycles will be referred to as "hygrothermal aging" in this paper. Hygrothermal aging results in changes to the physical and mechanical properties of an epoxy resin (Ref. 2). When the epoxy resin is used as the matrix material in a composite, these changes in resin properties can contribute to microcracking and to reduced strength for matrix dominated composite failure modes.NASA/TM-2011-216999 2 Hygrothermal aging can induce permanent changes in an epoxy resin through non-reversible mechanisms that alter the chemical structure of the material. This process is called chemical aging. A change in the glass transition temperature (T g ) during aging is one indication of chemical aging in the form of continued cure or thermal degradation in the bulk resin. Chemical aging can also occur as oxidation (which is typically limited to exposed surfaces) and as hydrolysis (which is dependent on moisture absorption). There is a vast body of literature detailing the influence of thermal-oxidative aging on the chemistry of epoxy resins and epoxy based composites. It has been reported that thermal-oxidative environments can be detrimental to the integrity of the resin, and many papers report a reduction in T g with aging; attributed to oxidative chain scission within the structure (Refs. 3 and 4). The chemical reactions associated with oxidation have been extensively monitored by Fourier Transform Infrared Spectroscopy (FTIR), and a significant database of peak assignments has been collected (...

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System-Level Urban Air Mobility Transportation Modeling and Determination of Energy-Related Constraints

Kohlman

Patterson

2018

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A notched coupon approach for tensile testing of braided composites

Kohlman

Bail

Roberts

et al. 2012

Composites Part A: Applied Science and Manufacturing

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A notched coupon geometry was evaluated as a method for tensile testing of 2D triaxial braid composites. Edge initiated shear failure has been observed in transverse tension tests using straight-sided coupons based on ASTM D3039. The notched coupon was designed to reduce the effects of edge initiated failure and produce the desired tensile failure. A limited set of tests were performed with partial pressurization of tubes to determine the transverse tensile strength in the absence of edge initiated failure. The transverse strength measured with the notched coupons was considerably higher than the straight-sided coupons, comparable to the tube results, and closer to the maximum possible strength based on maximum fiber strain. Further investigations of the effects of the observed biaxial stress state and stress concentrations in the notched geometry are needed.

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Lee W. Kohlman

Parallel Hybrid Gas-Electric Geared Turbofan Engine Conceptual Design and Benefits Analysis

Effects of hygrothermal cycling on the chemical, thermal, and mechanical properties of 862/W epoxy resin

System-Level Urban Air Mobility Transportation Modeling and Determination of Energy-Related Constraints

A notched coupon approach for tensile testing of braided composites

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