Richard B. Timmers scite author profile

Richard B. Timmers

5Publications

21Citation Statements Received

7Citation Statements Given

How they've been cited

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Affiliations

ILC Dover (United States)

Publications

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Structural Design, Analysis, and Testing of an Expandable Lunar Habitat

Hinkle

Timmers

Dixit

2009

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ILC Dover, under contract by NASA Langley Research Center, and in cooperation with NASA Johnson Space Center is designing and manufacturing an expandable lunar habitat. This cylindrical habitat, or Engineering Development Unit (EDU), is a hybrid system with two hard end caps and a deployable softgoods section in the center. The softgood section packs into the endcaps and the unit roughly doubles in length upon deployment. The EDU is designed to demonstrate packing and deployment of an expandable habitat under expected loading conditions. Using a unique fabric lobe system, the structure is intended to be lighter in weight with a higher volume than a similar metal configuration. The restraint layer uses a webbing net construction with a coated fabric to carry the pressure loads up to 9 psi. Finite Element Analysis of the fabric lobe and webbing structure was performed to ensure that the structure will meet the desired safety limits. Analysis was also used to establish manufacturing tolerances during the fabrication process. Testing of the webbing seams and lobe under pressure further validated the design decisions. The next step in the evolution of the EDU is system testing, interior outfitting, and field operations. Nomenclature σ = stress r = radius ρ = pressure h = hoop direction I

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Modeling and Simulation of the Second-Generation Orion Crew Module Airbag Landing System

Timmers

Welch

Hardy

2009

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Air bags were evaluated as the landing attenuation system for earth landing of the Orion Crew Module (CM). An important element of the air bag system design process is proper modeling of the proposed configuration to determine if the resulting performance meets requirements. Analysis conducted to date shows that airbags are capable of providing a graceful landing of the CM in nominal and off-nominal conditions such as parachute failure, high horizontal winds, and unfavorable vehicle/ground angle combinations. The efforts presented here surround a second generation of the airbag design developed by ILC Dover, and is based on previous design, analysis, and testing efforts. In order to fully evaluate the second generation air bag design and correlate the dynamic simulations, a series of drop tests were carried out at NASA Langley's Landing and Impact Research (LandIR) facility. The tests consisted of a full-scale set of air bags attached to a full-scale test article representing the Orion Crew Module. The techniques used to collect experimental data, construct the simulations, and make comparisons to experimental data are discussed.

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Impact Attenuating Airbags for Earth and Planetary Landing Systems

Willey

Sandy

Welch

et al. 2007

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Second Generation Airbag Landing System for the Orion Crew Module

Shook

Timmers

Hinkle

2009

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Modeling and Simulation of the Second-Generation Orion Crew Module Airbag Landing System

Timmers

Hardy

Willey

et al. 2009

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