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Erosion Characteristics and Optical Properties of State-of-the-Art, Erosion-Resistant Coatings on Infrared Windows: Boron Phosphide, Gallium Phosphide, and Zinc Sulfide on Multispectral Zinc Sulfide
Erosion Characteristics and Optical Properties of StateoftheArt ErosionResistant Coatings on Infrared Windows Boron Phosphide Gallium Phosphide and Zinc Sulfide on Multispectral Zinc Sulfide Author:Daniel C. Harris This is a NAVAL AIR WARFARE CENTER WEAPONS DIV CHINA LAKE CA report procured by the Pentagon and made available for public release. It has been reproduced in the best form available to the Pentagon. It is not spiral-bound, but rather assembled with Velobinding in a soft, white linen cover. The Storming Media report number is A412903. The abstrac... more »t provided by the Pentagon follows: Optical properties and rain and sand erosion resistance of the following infrared window materials were measured: (1) Barr & Stroud boron phosphide coating on multispectral zinc sulfide, (2) Barr & Stroud gallium phosphide coating (with a thin outer layer of boron phosphide) on multispectral zinc sulfide, (3) Raytheon zinc sulfide coating on multispectral zinc sulfide, (4) Texas Instruments bulk gallium phosphide, (5) polycrystalline magnesium fluoride, and (6) single-crystal silicon. ZnS-coated ZnS has low optical emission for operation at 500 deg C in both the 3-5 and 8-10 micrometers regions. Bulk GaP and bare MgF2 have low emission only in the 3-5 micrometers region. BP/ZnS and BP/OaP/ZnS have prohibitive optical emission at 500 deg C in both the 3-5 and 8-10 micrometers regions. In whirling arm rain erosion experiments, none of the coated materials was as durable as bare MgF2. BP/ZnS is more durable than ZnS/ZnS, but subsurface damage preceded damage to the BP coating in BP/ZnS. GaP fractured easily on orthogonal crystal planes upon raindrop impact. In sand erosion experiments, BP and BP/GaP/ZnS were best and MgF2 was second most durable.« less