G. Wilhelmi scite author profile

Advanced composite materials offer the potential to improve naval propulsion shafting by reducing corrosion and galvanic effects, weight, life‐cycle costs, bearing loads, magnetic signature, alignment problems, and use of strategic materials; and by increasing allowable fatigue stress, flexibility, and vibration damping characteristics. The Navy is investigating the potential impact and feasibility of a standardized family of composite shaft sizes manufactured by a highly‐automated filament‐winding process incorporating continuous graphite and glass filaments in a thermosetting epoxy resin matrix. A small‐diameter (2.5 inch) filament‐wound composite propulsion shaft is being evaluated in a 2‐year trial aboard a Naval Academy yard patrol vessel (YP‐654 class). Encouraging results to date from the YP trial, laboratory torsion and fatigue testing, and analytical studies employing finite‐element stress‐analysis techniques, have led to current R&D efforts to develop a Navy‐standard composite shafting “base laminate,” design and procurement specifications, and metal/composite coupling technique suitable for the largest diameter shafting systems. Laboratory evaluations with small diameter composite shafts have demonstrated their torsional loading and fatigue capabilities, and have shown the joint to a metal flange or propeller as the consistent weak point in the system. This paper presents a summary of assessments of composite shafting in terms of size, weight, and costs comparisons with conventional materials; Navy experience with the YP composite shaft installation; discussion of finite element investigations of composite shafting and coupling system models; and technological areas requiring additional investigation.

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Glass Reinforced Plastic (Grp) Piping for Shipboard Applications

Wilhelmi¹,

Schab²

1977

Naval Engineers Journal

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The widespread acceptance of Glass Reinforced Plastic (GRP) Piping by industry has not been paralleled by Navy shipboard applications due to lack of technical information concerning performance characteristics of the material in the shipboard environment. The need for a corrosion—free, lightweight, low cost alternative to metallic piping materials aboard advanced Navy ships provided an opportunity to begin investigations with GRP Piping in the areas of fire performance, mechanical properties, cyclic fatigue characteristics, shock performance, flexible compatible couplings, erosion resistance, marine fouling control systems, and joint inspection techniques. Results of investigations to date have provided encouragement for current applications of GRP Piping in advanced Navy ships, and for future applications throughout the entire surface—ship fleet. Several diversified GRP pipe, fitting, and joining concepts employed by various manufacturers are currently being investigated to provide the performance criteria necessary to develop a military specification ensuring required characteristics for general shipboard service.

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G. Wilhelmi

Binary sequences and error analysis for pseudo-statistical neutron modulators with different duty cycles

Quality assessment of binder pitches for carbon and graphite electrodes

Development of reactor graphite

Composite Shafting for Naval Propulsion Systems

Glass Reinforced Plastic (Grp) Piping for Shipboard Applications

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