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| * Click on an image to enlarge it in a new window * |
| | .gif) | External Wave Spring: Similar to a standard retaining ring, except the axial wave form yields to compressibility. Pressure is applied in two directions to eliminate "play."
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| | .gif) | Internal Wave Spring: Similar to a standard retaining ring, except the axial wave form yields to compressibility. Pressure is applied in two directions to eliminate "play." | |
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| | .gif) | Standard Gap Style: Flat wire design yields many benefits vs. compression springs: reduced operating height, precise load deflections, and lower cost. Precise envelope of motion. | |
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| | .gif) | Narrow Section Split: Precision narrow wire section (S) with gap to eliminate binding and minimize radial expansion. Compact working envelope. | |
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| | .gif) | Compression Light Duty: Compact size, low operating height, and precise design yield superior product benefits versus round wire springs. | |
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| | .gif) | Compression Medium Duty: Heavier gauge wire with 2-3 times the spring rate versus Light Duty. Nice compact design, complete with precise design yield characteristics. | |
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| | .gif) | Compression Heavy Duty: Nearly twice the spring rate of CMM. Nice compact design, complete with precise design yield characteristics. | |
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| | .gif) | Metric Standard Wave Spring: Flat wire design yields many benefits vs. compression springs: reduced operating height, precise load deflections, lower cost. | |
