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Static Stress with Linear Material Models
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Linear Static Stress Analysis of a Taxicab Chassis CityCab researchers analyzed the frame of a next generation taxicab for the 21st century. The model - a combination of brick, plate and beam elements - was built to determine the displacements and stresses resulting from extreme loading conditions encountered on rough terrain. |
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Linear Static Stress Analysis of an Automotive Electrical Conductor An electrical conductor within an automotive subassembly was studied by General Motors. Engineers performed a linear static analysis to determine the stresses resulting from forces exerted during a molding process. |
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Linear Static Stress Analysis of an Axle Housing Using SolidWorks and ALGOR, Engineer Rene Suazo of MARCO Mining verified that the cause of a failure in the axle housing of a mining truck was due to very high stresses caused by torsional loads. The resulting design enhancements spared the client future injuries to drivers, saved down time and avoided the enormous cost of a new truck fleet. |
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Linear Static Stress Analysis of an Access Trestle for a Bulk Liquids Berth The access trestle for a bulk liquids berth at Dampier, Western Australia was studied by Madsen Giersing Consulting Engineers. The beam-and-plate model was built to study the behavior of the structure under various loads in order to determine sizing of the structural members. |
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Linear Static Stress Analysis of a Mizzenmast Chain Plate A chain plate, used to attach the mizzenmast rigging of a 98-foot ketch, was studied using plate elements. The model was built by Hodgdon Yachts to ensure that the chain plate would not yield, fatigue or cause excessive stresses in the bulkhead when subjected to the mizzenmast rigging loads. |
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Linear Static Stress Analysis of a Hull Section with Portholes A hull section with two portholes was analyzed by Hodgdon Yachts in order to meet safety and weight goals for the structure in the Owner's Stateroom of a 98-foot ketch. The engineer selected thick composite and brick elements. |
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Linear Static Stress Analysis of a Monkey Skull Researchers at the New York Institute of Technology are using linear static stress analysis to determine how the skull of a crab-eating macaque monkey resists chewing loads. The purpose of the study is to examine the functional anatomy and evolution of the facial skeleton in primates. |
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Design Optimization of a Support Bracket Full associativity between ALGOR and Pro/ENGINEER facilitated this design optimization of a support bracket. A series of linear static stress analyses was used to examine the impact of large-scale geometry changes from design iterations on the stress distribution patterns and verify that safe stress levels were maintained. |
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Linear Static Stress Analyses of Race Car Components Automotive engineers at Triple Eight Race Engineering used linear static stress analysis to optimize a variety of load-bearing components on their Vauxhall Astra Coupe race cars. Their efforts were rewarded with the driver, team and manufacturer's titles in the British Touring Car Championship for the second year in succession in 2002. |
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Linear Static Stress Analysis of Aluminum Automobile Wheel Goodyear engineers performed a linear static stress analysis on this aluminum automobile wheel, modeled in Pro/ENGINEER, in order to verify that safe stress levels were maintained in the wheel at zero inflation pressure for a new "run-flat" tire design. |
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Linear Static Stress Analysis of a Composite Bicycle Frame A linear static stress analysis was used to optimize this composite bicycle frame and reduce the overall weight by 15 percent. |
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Linear Static Stress Analysis of a Toggle Clamp Linear contact facilitated this static stress analysis of a toggle clamp to determine the stress distribution for a maximum clamping force of 1000 pounds. The model originated in the Rhinoceros CAD package. |
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Linear Static Stress Analysis of a Socket Housing Meadows Analysis and Design, LLC determined the linear static stresses of wind loading on this socket housing, which is a component of a stadium light fixture. The model originated in the Alibre Design CAD solid modeler. |
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Linear Static Stress Analysis of Industrial Mixer Engineers at Littleford Day, Inc. used linear static stress analysis to validate the 135 psi pressure rating of this industrial mixer used in the chemical and plastics industries. |
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Linear Static Stress Analysis of a Manifold A linear static stress analysis was performed to determine the stress distribution in this steel manifold. The manifold, modeled in CADKEY, is part of an industrial water pumping system and is being subjected to an internal pressure loading. |
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Linear Static Stress Analysis of a Bolt Assembly A linear static stress analysis was performed on this bolt assembly, modeled in the Rhinoceros® NURBS modeling program, to verify that the stresses from a preload force fell within a design percentage of the yield stress. |
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Linear Static Stress Analysis of a Motorcycle Piston In this linear static stress analysis of a motorcycle piston, a pressure of 1000 psi was applied to the top of the piston to determine the stress distribution during combustion. The piston was modeled in the Pro/ENGINEER CAD solid modeler. |
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Linear Static Stress Analysis of a Jigsaw A linear static stress analysis was performed on this battery-powered jigsaw, modeled in SolidWorks, to determine the deflections which would occur during typical operation. |
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