一、里氏硬度计测试基本原理
随着单片技术的发展,1978年,瑞士人Leeb博士首次提出了一种全新的测硬方法,它的基本原理是具有一定质量的冲击体在一定的试验力作用下冲击试样表面,测量冲击体距试样表面1mm处的冲击速度与回跳速度,利用电磁原理,感应与速度成正比的电压。里氏硬度值以冲击体回跳速度与冲击速度之比来表示。
计算公式:HL=1000*(VB/VA)
式中:HL——里氏硬度值
VB——冲击体回跳速度
VA——冲击体冲击速度
二、里氏硬度计的测量范围
根据里氏原理,只要材料具备一定刚性,能形成反弹,就能测出准确的里氏硬度值,但很多材料里氏与其它制式的硬度没有相应的换算关系,因此里氏硬度计目前只装了9种材料的换算表。具体材料如下:钢和铸钢,合金工具钢,灰铸铁,球墨铸铁,铸铝合金,铜锌合金,铜锡合金,纯铜,不锈铜。
三、里氏硬度计测量范围表
|
材料
|
硬度制
|
冲击装置
|
|
D/DC
|
D+15
|
C
|
G
|
E
|
DL
|
|
Steel and cast
steel钢和铸钢
|
HRC
|
17.9–68.5
|
19.3–67.9
|
20.0–69.5
|
|
22.4–707
|
20.3–68.2
|
|
HRB
|
59.6–99.6
|
|
|
47.7–99.9
|
|
37.0–99.9
|
|
HRA
|
59.1–85.8
|
|
|
|
61.7–88.0
|
|
|
HB
|
127–651
|
80–638
|
80–683
|
90–646
|
83–663
|
81–646
|
|
HV
|
83–976
|
80–937
|
80–996
|
|
84–1042
|
80–950
|
|
HS
|
32.2–99.5
|
33.3–99.3
|
31.8–102.1
|
|
35.8–102.6
|
30.6–96.8
|
|
Steel锻钢
|
HB
|
143–650
|
|
|
|
|
|
|
CWT,ST
合金工具钢
|
HRC
|
20.4–67.1
|
19.8–68.2
|
20.7–68.2
|
|
22.6–70.2
|
|
|
HV
|
80–898
|
80–935
|
100–941
|
|
82–1009
|
|
|
Stainless steel
不锈钢
|
HRB
|
46.5–101.7
|
|
|
|
|
|
|
HB
|
85–655
|
|
|
|
|
|
|
HV
|
85–802
|
|
|
|
|
|
|
GC,IRON
灰铸铁
|
HRC
|
|
|
|
|
|
|
|
HB
|
93–334
|
|
|
92–326
|
|
|
|
HV
|
|
|
|
|
|
|
|
NC,IRON
球墨铸铁
|
HRC
|
|
|
|
|
|
|
|
HB
|
131–387
|
|
|
127–364
|
|
|
|
HV
|
|
|
|
|
|
|
|
C,ALUM
铸铝合金
|
HB
|
19–164
|
|
23–210
|
32–168
|
|
|
|
HRB
|
23.8–84.6
|
|
22.7–85.0
|
23.8–85.5
|
|
|
|
BRASS
铜锌合金
|
HB
|
40–173
|
|
|
|
|
|
|
HRB
|
13.5–95.3
|
|
|
|
|
|
|
BRONZE
铜锡(铝)合金
|
HB
|
60–290
|
|
|
|
|
|
|
COPPER纯铜
|
HB
|
45–315
|
|
|
|
|
|
四、里氏硬度计示值误差和示值重复性表
|
序号
|
冲击装置类型
|
标准里氏硬度块硬度值
|
示值误差
|
示值重复性
|
|
1
|
D
|
760±30HLD
530±40HLD
|
±6HLD
±10HLD
|
6HLD
10HLD
|
|
2
|
DC
|
760±30HLDC
530±40HLDC
|
±6HLDC
±10HLDC
|
6HLDC
10HLDC
|
|
3
|
DL
|
878±30HLDL
736±40HLDL
|
±12HLDL
|
12HLDL
|
|
4
|
D+15
|
766±30HLD+15
544±40HLD+15
|
±12HLD+15
|
12HLD+15
|
|
5
|
G
|
590±40HLG
500±40HLG
|
±12HLG
|
12HLG
|
|
6
|
E
|
725±30HLE
508±40HLE
|
±12HLE
|
12HLE
|
|
7
|
C
|
822±30HLC
590±40HLC
|
±12HLC
|
12HLC
|