Sandwich-type polycrystalline diamond compact and preparation method thereof and used binding agent
A diamond polycrystalline and diamond polycrystalline layer technology, which is applied in the field of diamond and hard alloy composite tool materials, non-ferrous metals and difficult-to-machine non-metallic materials, can solve the problem of diamond polycrystalline layer chipping and reduce the composite sheet Problems such as service life, diamond polycrystalline layer damage, etc., to achieve the effect of not easy chipping, improved stress condition, and good sintering promotion effect
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Embodiment 1
[0022] A sandwich-type polycrystalline diamond composite sheet sequentially includes an upper layer of hard alloy substrate, a middle layer of diamond polycrystalline layer and a lower layer of hard alloy substrate, and the three are composited through high-temperature and high-pressure sintering.
[0023] A nano-metal bond that makes the sandwich-type diamond polycrystalline composite sheet have high impact toughness and good wear resistance. It is composed of the following raw materials in weight percentage: Co powder 97%, Ni powder 1.8% , TaC powder 0.7%, B powder 0.5%. The raw materials of the binder are preferably analytically pure, the particle size of TaC powder and B powder is 20-30nm, and the particle size of Ni powder and Co powder is 30-40nm, which is beneficial to enhance the impact toughness, Wear resistance and heat resistance.
[0024] The diamond polycrystalline layer of the sandwich diamond polycrystalline composite sheet is composed of the following raw mate...
Embodiment 2
[0033] The difference between this example and Example 1 is that the nano-metal bonding agent is composed of the following raw materials in percentage by weight: Co powder 99%, Ni powder 0.78%, TaC powder 0.2%, B powder 0.02% .
[0034] The diamond polycrystalline layer is composed of the following raw materials in weight percentage: 96% of diamond powder with a particle size of 2-10 μm and 4% of the above-mentioned nano-metal bond.
[0035] The cemented carbide matrix is composed of the following raw materials in weight percentage: 91% of WC powder, 0.5% of NbC powder and 8.5% of Co powder.
[0036] Its preparation method comprises the following steps:
[0037] 1) Purification and reduction treatment: Boil the diamond powder with 30% sodium hydroxide aqueous solution for 40 minutes, wash it with deionized water until neutral, boil it with a mixed acid solution of sulfuric acid and nitric acid with a volume ratio of 1:1 for 30 minutes, and wash it with deionized water Wash...
Embodiment 3
[0043] The difference between this example and Example 1 is that the nano-metal bond is composed of the following raw materials in weight percentage: Co powder 98%, Ni powder 1%, TaC powder 0.6%, B powder 0.4% .
[0044] The diamond polycrystalline layer is composed of the following raw materials in weight percentage: 95% of diamond powder and 5% of the above-mentioned nano-metal bond.
[0045] The cemented carbide matrix is composed of the following raw materials in weight percentage: 90% of WC powder, 1% of NbC powder and 9% of Co powder.
[0046] Its preparation method comprises the following steps:
[0047] 1) Purification and reduction treatment: Boil the diamond powder with 25% sodium hydroxide aqueous solution for 35 minutes, wash it with deionized water until neutral, boil it with a mixed acid solution of sulfuric acid and nitric acid with a volume ratio of 1:1 for 25 minutes, and wash it with deionized water Wash with water until neutral, then boil with a mixed so...
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