Nano metal ceramic electrodeposited composite coating at inner hole wall of oil drill pipe and preparation method thereof
A technology of nano-cermets and oil drill pipes, applied in coatings, electrolytic coatings, etc., to achieve the effect of improving hardness and corrosion resistance
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Embodiment 1
[0045] The composite plating solution A was used as the brush-plating nano-cermet electrodeposition composite plating solution to perform brush-plating nano-cermet composite plating, and the experimental scheme and test results were designed and listed in Table 6.
[0046] Table 6 uses the composite plating solution A as the brush plating nano-cermet electrodeposition composite plating solution to carry out the experimental parameters and test results of brush-plating nano-cermet electrodeposition composite plating
[0047]
[0048] Taking the composite plating solution A with 10g / L of nanoparticles added as the brush plating nano-cermet electrodeposition composite plating solution as an example, the selected electroplating process parameters are: the brush plating voltage is 8V, and the wire rotating around the oil drill pipe Speed is 10m / min, brush plating temperature is 40 DEG C and electroplating time is 6 minutes to carry out electric brush plating nano-cermet electro...
Embodiment 2
[0055] With the composite plating solution B as the brush-plating nano-cermet electrodeposition composite plating solution, the brush-plating nano-cermet electrodeposition composite plating is carried out, and its experimental scheme and test results are designed as shown in Table 8:
[0056] Table 8 uses the composite plating solution B as the brush plating nano-cermet electrodeposition composite plating solution to carry out the experimental parameters and test results of brush-plating nano-cermet electrodeposition composite plating
[0057]
[0058] The operation process is the same as in Example 1, and a dense, uniform, and bright oil drill pipe electrodeposited nano-titanium carbide composite coating is obtained. Compared with the untreated petroleum drill pipe matrix [microhardness is 350 and wear loss is 8.233mg / (5min) compared], the microhardness of the petroleum drillpipe treated by the above-mentioned nano-cermet electrodeposition composite plating is measured to b...
Embodiment 3
[0060] With the composite plating solution C as the brush plating nano-cermet electrodeposition composite plating solution, the brush-plating nano-cermet electrodeposition composite plating is carried out, and its experimental scheme and test results are designed as shown in Table 9:
[0061] Table 9 is the experimental parameters and test results of brush-plating nano-cermet electrodeposition composite plating solution for brush-plating nano-cermet electrodeposition composite plating solution C with composite plating solution C
[0062]
[0063] The operation process is the same as that of Example 1, and a dense, uniform, and bright oil drill pipe electrodeposited nano-silicon carbide and titanium carbide mixed composite coating is obtained. Compared with the untreated oil drill pipe substrate [microhardness of 350 and wear loss of 8.233mg / (5min)], the microhardness of the oil drill pipe treated by the above-mentioned nano-cermet electrodeposition composite plating was meas...
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