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GB/T 894-2017 (GBT894-2017)

GB/T 894-2017_English: PDF (GBT 894-2017, GBT894-2017)
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BASIC DATA
Standard ID GB/T 894-2017 (GB/T894-2017)
Description (Translated English) Retaining rings for shaft
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard J13
Classification of International Standard 21.060.30
Word Count Estimation 18,119
Date of Issue 2017-07-12
Date of Implementation 2018-02-01
Drafting Organization China Machine Productivity Promotion Center
Administrative Organization National Fastener Standardization Technical Committee (SAC/TC 85)
Proposing organization China Machinery Industry Federation
Issuing agency(ies) General Administration of Quality Supervision, Inspection and Quarantine of the People Republic of China, China National Standardization Administration Committee

Standards related to: GB/T 894-2017

NATIONAL STANDARD OF THE
PEOPLE’S REPUBLIC OF CHINA
ICS 21.060.30 J 13
GB/T 894-2017
Replacing GB/T 894.1-1986, GB/T 894.2-1986
Retaining rings for shaft
Issued on. July 12, 2017 Implemented on. February 1, 2018 Issued by. General Administration of Quality Supervision, Inspection and Quarantine of the PRC; Standardization Administration of the PRC.
Table of Contents
Foreword ... 3
1 Scope ... 5
2 Normative references ... 5
3 Symbols ... 5
4 Dimensions and design data ... 6
5 Bearing capacity ... 16
6 Groove design ... 18
7 Installation ... 20
8 Technical conditions ... 20
9 Designation ... 21
Foreword
This Standard is one of “retaining rings” series of standards. This series include.
GB/T 893 Retaining rings for bores;
GB/T 894 Retaining rings for shaft;
GB/T 896 “E” rings;
GB/T 959.1 Specifications for retaining rings - Circlips.
This Standard is drafted in accordance with the rules given in GB/T 1.1-2009.
This Standard replaces GB/T 894.1-1986 “Circlips for shaft - Type A” and GB/T 894.2-1986 “Circlips for shaft - Type B”. As compared with GB/T 894.1-1986 and GB/T 894.2-1986, the main technical changes are as follows.
-GB/T 894.1-1986 and GB/T 894.2-1986 are combined into one standard; and the standard’s name is modified;
-ADD specifications for standard type (Type A). d1=210, 220, 230, 240, 250, 260, 270, 280, 290, and 300 mm (SEE Table 1);
- MODIFY the thickness (s), and other dimensions and tolerances of standard type (Type A) (SEE Table 1);
-SPECIFY that the bore for installation pincer (d5) is the minimum limit dimension (SEE Table 1, Table 2);
ADD the standard value of bearing capacity FN of groove (SEE Table 1, Table 2, Chapter 5);
ADD the standard value of bearing capacity FR of rings (SEE Table 1, Table 2, Chapter 5);
ADD the limit speed of rings (SEE Table 1, Table 2, Chapter 5);
ADD a heavy type (Type B), d1 = 15 mm ~ 100 mm (SEE Table 2);
ADD installation tool standards and specifications (SEE Table 1, Table 2);
ADD groove design and installation (SEE Chapter 6, Chapter 7);
- DELETE the previous Appendix A. This Standard was proposed by China Machinery Industry Federation.
Retaining rings for shaft
1 Scope
This Standard specifies the retaining rings for shaft of standard type (Type A) with bore diameter d1 = 3 mm ~ 300 mm and of heavy type (Type B) with d1 = 15 mm ~ 100 mm; and gives the groove design data for installing the retaining rings.
This Standard applies to the retaining rings, which can withstand axial force, used for fixed parts or components (such as rolling bearings) on the shaft.
2 Normative references
The following documents are indispensable for the application of this document. For the dated references, only the versions with the dates indicated are applicable to this document. For the undated references, the latest version (including all the amendments) are applicable to this document.
GB/T 959.1 Specifications for retaining rings - Circlips
GB/T 1237 Designation system for fasteners
JB/T 3411.47 Pincer for assembly spring thrust collar on shaft - Dimensions
3 Symbols
The following symbols are applicable to this document. a - Lug radial width b - Radial width opposite the opening of retaining ring d1 - Shaft diameter d2 - Groove diameter d3 - Inner diameter of retaining ring in free state d4 -The maximum centerline diameter of the external space. The calculation
equation is. d4 = d1 - 2.1a d5 - Installation bore diameter
FN - The groove bearing capacity when the lower yield strength of the material
ReL = 200 MPa (SEE 5.2)
FR - Bearing capacity of the retaining ring at right angle contact (SEE 5.3)
FRg - Bearing capacity of the retaining ring at chamfer contact (SEE 5.3)
g - Part chamfer dimension (SEE Figure 2)
m - Groove width (SEE Table 1, Table 2)
n - Edge distance (SEE Table 1, Table 2)
nabl - Limit speed of retaining rings (SEE Table 1)
ReL - Lower yield strength of material
s - Thickness of retaining rings (SEE Table 1, Table 2)
t - The groove depth when d1 and d2 are nominal dimensions (SEE Figure 2)
4 Dimensions and design data
The dimensions of retaining ring and groove shall be in accordance with the provisions of Table 1 and Table 2. Among them, the dimensional tolerances apply to the dimensions before coating.
Figure 1 is only an example.
The load values for groove and groove edge are determined by specifications. The groove bottom shall be in accordance with 6.3.
5 Bearing capacity
5.1 General rules
The dimensions for mounting retaining ring require the calculation of groove bearing capacity FN and the retaining ring bearing capacity FR, respectively. Usually, the design is mainly referred to lower limit parameters. Table 1 and Table 2 give the bearing capacities (FN, FR, FRg), which do not include the safety factor of the yield generated under static load or the fatigue fracture under dynamic load. Under static load, the safety level against fracture is at least 2 times.
Under high-speed rotation conditions, because the centrifugal action may lead to the retaining ring moving away from the bottom surface of groove, the limit speed is limited.
5.2 Groove bearing capacity FN
The FN values given in Tables 1 and 2 apply to grooves with a material lower yield strength ReL=200 MPa, and with nominal groove depth t and edge distance
n.
For other groove depths t′ and lower yield strengths ReL, the bearing capacity
FN shall be calculated according to the equation (1).
5.3 Ring bearing capacity FR
The FR values given in Tables 1 and 2 apply to the retaining ring which passes through the shaft greater than the maximum diameter of 1.01×d1 (SEE Chapter 7) and conforms to nabl, assembly in contact with the part at right angle (SEE Figure 3).
The FRg value applies to assemblies with a part chamfer dimension of g (SEE Figure 4).
The FR and FRg values apply to the retaining ring material with a modulus of elasticity of 210 GPa.
Keys.
1 - Support ring;
2 - Retaining ring.
Figure 5 -- Right angle contact using a support ring
5.4 Limit speed
After the retaining ring made of C67S or C75S is installed in accordance with the method specified in Chapter 7, when the speed reaches the limit speeds given in Tables 1 and 2, the ring shall not come out of the groove.
6 Groove design
6.1 Groove dimension d2
The groove dimension d2 shall be selected from Tables 1 and 2, to allow the retaining ring to be prestressed after being placed in the groove.
Note. If prestressing does not need to be withstood, a smaller groove diameter can be selected. Its lower limit is. d2min = d3max.
6.2 Groove width m
The tolerance zone H13 is suitable for the groove widths specified in Tables 1 and 2. When subjected to a unidirectional force, the groove can be widened and/or chamfered to the unstressed side. The groove width does not affect the bearing capacity of retaining ring. The manufacturer can determine the shape and width of groove at its discretion.
If the retaining ring alternately transmits the force, and the groove wall is subjected to a bidirectional force, the groove width m shall be matched as much as possible to the retaining ring thickness s, such as reducing the tolerance.
The groove shape is shown in Figure 6 a)~d).
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