Decorative portfolio with chrome-plated cover, ca 1925 '''' is designed to be aesthetically pleasing and durable. Thicknesses range from , however, they are usually between . The chromium plating is usually applied over bright
nickel plating. Typical base materials include
steel,
aluminium,
plastic,
copper alloys, and zinc alloys. While decorative chrome is applied primarily for aesthetic purposes with thin layers that provide a shiny finish, TDC, such as
Armoloy, focuses on enhancing surface performance. It delivers wear resistance, corrosion protection, and hardness without adding significant thickness. TDC also avoids the microcracking associated with decorative chrome, making it ideal for industrial applications where durability and friction reduction are necessary. Thin dense chrome is commonly used in precision tools, aerospace, medical, and food processing equipment.
Hard '
, also known as ' or '''', is used to reduce friction, improve durability through abrasion tolerance and wear resistance in general, minimize
galling or seizing of parts, expand chemical inertness to include a broader set of conditions (such as oxidation resistance), and bulking material for worn parts to restore their original dimensions. It is very hard, measuring between 65 and 69
HRC (also based on the
base metal's hardness). Hard chrome tends to be thicker than decorative chrome, with standard thicknesses in non-salvage applications ranging from 20 to 40 μm, but it can be an order of magnitude thicker for extreme wear resistance requirements, in such cases 100 μm or thicker provides optimal results. Unfortunately, such thicknesses emphasize the limitations of the process, which are overcome by plating extra thickness then grinding down and lapping to meet requirements, or to improve the overall aesthetics of the chromed piece. Pieces that are not ideally shaped in reference to electric field geometries (nearly every piece sent in for plating, except spheres and egg shaped objects) require even thicker plating to compensate for non-uniform deposition, and much of it is wasted when grinding the piece back to desired dimensions. Modern engineered coatings do not suffer such drawbacks, which often price hard chrome out due to labor costs alone. Hard chrome replacement technologies outperform hard chrome in wear resistance, corrosion resistance, and cost. Hardness up to 80 HRC is not extraordinary for such materials. Modern engineered coatings applied using
spray deposition can form layers of uniform thickness that often require no further polishing or machining. These coatings are often composites of
polymers, metals, and ceramic powders or fibers as proprietary formulas protected by patents or as trade secrets, and thus are usually known by brand names. Hard chromium plating is subject to different types of quality requirements depending on the application; for instance, the plating on hydraulic
piston rods are tested for corrosion resistance with a
salt spray test. ==Automotive use==