阅读说明：本技术 高强度耐磨型合金地板钉材料 (High-strength wear-resistant alloy floor nail material ) 是由 尹夕刚 于 2019-03-14 设计创作，主要内容包括：本发明公开了一种高强度耐磨型合金地板钉材料,包括Al：0.02～0.12％；Mo：0.08～0.17％；Mn：0.28～0.92％；Ni：0.03～0.26％；Cr：0.82～1.32％；Ti：0.022～0.047％；Si：0.08～0.18％；Cu：0.19～0.46％；C：0.22～0.42％；O：0.001～0.002％；V：0.002～0.012％；P：0.003～0.014％；N：0.012～0.057％；B：0.001～0.002％；S：0.002～0.009％；Ce：0.001～0.006％；其余为Fe与不可避免的杂质。本发明具有强度高、耐磨性高的特点。(The invention discloses a high-strength wear-resistant alloy floor nail material, which comprises Al: 0.02-0.12%; mo: 0.08-0.17%; mn: 0.28-0.92%; ni: 0.03-0.26%; cr: 0.82-1.32%; ti: 0.022-0.047%; si: 0.08-0.18%; cu: 0.19 to 0.46 percent; c: 0.22-0.42%; o: 0.001-0.002%; v: 0.002-0.012%; p: 0.003 to 0.014%; n: 0.012-0.057%; b: 0.001-0.002%; s: 0.002-0.009%; ce: 0.001-0.006%; the balance of Fe and inevitable impurities. The invention has the characteristics of high strength and high wear resistance.)

1. Wear-resisting type alloy floor nail material of high strength, its characterized in that: the alloy floor nail material comprises the following chemical components in percentage by weight: al: 0.02-0.12%; mo: 0.08-0.17%; mn: 0.28-0.92%; ni: 0.03-0.26%; cr: 0.82-1.32%; ti: 0.022-0.047%; si: 0.08-0.18%; cu: 0.19 to 0.46 percent; c: 0.22-0.42%; o: 0.001-0.002%; v: 0.002-0.012%; p: 0.003 to 0.014%; n: 0.012-0.057%; b: 0.001-0.002%; s: 0.002-0.009%; ce: 0.001-0.006%; the balance of Fe and inevitable impurities;

wherein, 2 is less than or equal to C +3Si + Mn +5Mo +7B + Cr is less than or equal to 3.8, and Cr/Mn is less than or equal to 2.

2. The high strength wear resistant alloy floor nail material of claim 1, wherein: the alloy floor nail material comprises the following chemical components in percentage by weight: al: 0.02 percent; mo: 0.08 percent; mn: 0.28 percent; ni: 0.03 percent; cr: 0.82%; ti: 0.022%; si: 0.08 percent; cu: 0.19 percent; c: 0.22 percent; o: 0.001 percent; v: 0.002%; p: 0.003%; n: 0.012%; b: 0.001 percent; s: 0.002%; ce: 0.001 percent; the balance of Fe and inevitable impurities.

3. The high strength wear resistant alloy floor nail material of claim 1, wherein: the alloy floor nail material comprises the following chemical components in percentage by weight: al: 0.12 percent; mo: 0.17 percent; mn: 0.92 percent; ni: 0.26 percent; cr: 1.32 percent; ti: 0.047 percent; si: 0.18 percent; cu: 0.46 percent; c: 0.42 percent; o: 0.002%; v: 0.012%; p: 0.014%; n: 0.057%; b: 0.002%; s: 0.009%; ce: 0.006%; the balance of Fe and inevitable impurities.

4. The high strength wear resistant alloy floor nail material of claim 1, wherein: the alloy floor nail material comprises the following chemical components in percentage by weight: al: 0.07 percent; mo: 0.12 percent; mn: 0.62 percent; ni: 0.14 percent; cr: 1.08 percent; ti: 0.035%; si: 0.13 percent; cu: 0.33 percent; c: 0.32 percent; o: 0.0015 percent; v: 0.007%; p: 0.008 percent; n: 0.034%; b: 0.0015 percent; s: 0.005 percent; ce: 0.003%; the balance of Fe and inevitable impurities.

5. The high strength wear resistant alloy floor nail material of claim 1, wherein: the alloy floor nail material comprises the following chemical components in percentage by weight: al: 0.04 percent; mo: 0.1 percent; mn: 0.32 percent; ni: 0.08 percent; cr: 0.98 percent; ti: 0.031%; si: 0.11 percent; cu: 0.24 percent; c: 0.26 percent; o: 0.0015 percent; v: 0.006%; p: 0.008 percent; n: 0.022%; b: 0.0012%; s: 0.003%; ce: 0.002%; the balance of Fe and inevitable impurities.

Technical Field

The invention relates to the field of floor nails, in particular to a high-strength wear-resistant alloy floor nail material.

Background

The floor nail in the existing market is usually a common cylindrical iron nail which is directly used, and the problems of low strength and poor wear resistance exist.

Disclosure of Invention

The purpose of the invention is as follows: aiming at the defects of the prior art, the invention provides an alloy floor nail material with high strength and high wear resistance.

The technical scheme is as follows: the invention discloses a high-strength wear-resistant alloy floor nail material which is characterized in that: the alloy floor nail material comprises the following chemical components in percentage by weight: al: 0.02-0.12%; mo: 0.08-0.17%; mn: 0.28-0.92%; ni: 0.03-0.26%; cr: 0.82-1.32%; ti: 0.022-0.047%; si: 0.08-0.18%; cu: 0.19 to 0.46 percent; c: 0.22-0.42%; o: 0.001-0.002%; v: 0.002-0.012%; p: 0.003 to 0.014%; n: 0.012-0.057%; b: 0.001-0.002%; s: 0.002-0.009%; ce: 0.001-0.006%; the balance of Fe and inevitable impurities;

wherein, 2 is less than or equal to C +3Si + Mn +5Mo +7B + Cr is less than or equal to 3.8, and Cr/Mn is less than or equal to 2.

Further, the alloy floor nail material comprises the following chemical components in percentage by weight: al: 0.02 percent; mo: 0.08 percent; mn: 0.28 percent; ni: 0.03 percent; cr: 0.82%; ti: 0.022%; si: 0.08 percent; cu: 0.19 percent; c: 0.22 percent; o: 0.001 percent; v: 0.002%; p: 0.003%; n: 0.012%; b: 0.001 percent; s: 0.002%; ce: 0.001 percent; the balance of Fe and inevitable impurities.

Further, the alloy floor nail material comprises the following chemical components in percentage by weight: al: 0.12 percent; mo: 0.17 percent; mn: 0.92 percent; ni: 0.26 percent; cr: 1.32 percent; ti: 0.047 percent; si: 0.18 percent; cu: 0.46 percent; c: 0.42 percent; o: 0.002%; v: 0.012%; p: 0.014%; n: 0.057%; b: 0.002%; s: 0.009%; ce: 0.006%; the balance of Fe and inevitable impurities.

Further, the alloy floor nail material comprises the following chemical components in percentage by weight: al: 0.07 percent; mo: 0.12 percent; mn: 0.62 percent; ni: 0.14 percent; cr: 1.08 percent; ti: 0.035%; si: 0.13 percent; cu: 0.33 percent; c: 0.32 percent; o: 0.0015 percent; v: 0.007%; p: 0.008 percent; n: 0.034%; b: 0.0015 percent; s: 0.005 percent; ce: 0.003%; the balance of Fe and inevitable impurities.

Further, the alloy floor nail material comprises the following chemical components in percentage by weight: al: 0.04 percent; mo: 0.1 percent; mn: 0.32 percent; ni: 0.08 percent; cr: 0.98 percent; ti: 0.031%; si: 0.11 percent; cu: 0.24 percent; c: 0.26 percent; o: 0.0015 percent; v: 0.006%; p: 0.008 percent; n: 0.022%; b: 0.0012%; s: 0.003%; ce: 0.002%; the balance of Fe and inevitable impurities.

Has the advantages that: compared with the prior art, the invention has the following remarkable advantages: the high-strength wear-resistant alloy floor nail material improves the formula of the floor nail material in the prior art, and increases B, Mo and V; limits C, Si, Mn, Mo, B and Cr, and has the characteristics of high strength and high wear resistance.

Detailed Description

The technical solution of the present invention will be further described with reference to the following embodiments.