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techtalk:ref:tools806 [2020/04/28 21:04] hippysmack created |
techtalk:ref:tools806 [2020/04/29 00:41] hippysmack [Mechanical Properties and Grade Markings of Nuts] |
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- | ===== Strengths Of Various Bolts ===== | + | ====== Strengths Of Various Fasteners ====== |
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+ | ====== Grade Marks and Material Properties for Bolts and Screws ====== | ||
+ | Bolts, screws and other fasteners are marked on the head with a symbol that identifies the grade of the fastener. ((Machinery's Handbook 27th Edition dated 2004 pg 1508)) \\ | ||
+ | The grade specification establishes the minimum mechanical properties that the fastener must meet. \\ | ||
+ | Additionally, industrial fasteners must be stamped with a registered head mark that identifies the manufacturer. \\ | ||
+ | The grade identification table identifies the grade markings and gives mechanical properties for some commonly used ASTM and SAE steel fasteners. \\ | ||
+ | Metric fasteners are identified by property grade marks, which are specified in ISO and SAE standards. \\ | ||
+ | These marks are discussed with metric fasteners. | ||
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+ | {{:techtalk:ref:svcproc:bolt_head_grade_markings.jpg?direct&300|}} ((drawing by Hippysmack)) \\ | ||
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+ | ===== Torque Range ===== | ||
+ | Torque specifications are normally stated within a range and not a specific number. \\ | ||
+ | When the nut on a bolt is tightened; ((Machinery's Handbook 27th Edition dated 2004 pg 1509)) \\ | ||
+ | An initial tensile load is placed on the bolt that must be taken into account in determining it's safe working strength or external load-carrying capacity. \\ | ||
+ | The total load on the bolt theoretically varies from a maximum equal to the sum of the initial and external loads. \\ | ||
+ | (from when the bolt is absolutely rigid and the parts held together are elastic) to a minimum equal to either the initial or external loads, whichever is the greater. \\ | ||
+ | (where the bolt is elastic and the parts held together are absolutely rigid). \\ | ||
+ | No material is absolutely rigid, so in practice the total load values fall somewhere between these maximum and minimum limits. \\ | ||
+ | (depending upon the relative, elasticity of the bolt and joint members) \\ | ||
+ | The range is given to accommodate these factors. \\ | ||
+ | ====== Mechanical Properties and Grade Markings of Nuts ====== | ||
+ | |||
+ | Three grades of hex and square nuts designated Grades 2, 5, and 8 are specified by the SAE 1995 standard covering nuts in the 1/4" to 1-1/2" diameter range. ((Machinery's Handbook 27th Edition dated 2004 pg 1509)) \\ | ||
+ | Grades 2, 5, and 8 nuts roughly correspond to the SAE specified bolts of the same grade. \\ | ||
+ | Additional specifications are given for miscellaneous nuts such as hex jam nuts, hex slotted nuts, heavy hex nuts, etc. \\ | ||
+ | Generally speaking; use nuts of a grade equal to or greater than the grade of the bolt being used. \\ | ||
+ | * Grade 2 Nuts: | ||
+ | * Grade 2 nuts are not required to be marked. | ||
+ | * Grade 5 Nuts (1/4" to 1-1/2" range): | ||
+ | * A dot on the face of the nut and a radial or circumferential mark at 120° counterclockwise from the dot. | ||
+ | * Or a dot at one corner of the nut and a radial line at 120° clockwise from the nut. | ||
+ | * Or one notch at each of the six corners of the nut. | ||
+ | * Grade 8 Nuts (1/4" to 1-1/2" range): | ||
+ | * A dot on the face of the nut with a radial or circumferential mark at 60° counterclockwise from the dot. | ||
+ | * Or a dot at one corner of the nut and a radial line at 60° clockwise from the nut. | ||
+ | * Or two notches at each of the six corners of the nut. | ||
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+ | ====== Detecting Counterfeit Fasteners ====== | ||
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+ | Fasteners with markings identifying them as a specific grade or property class are counterfeit if they don't meet standards established for that class. ((Machinery's Handbook 27th Edition dated 2004 pg 1509)) \\ | ||
+ | Counterfeit fasteners may break unexpectedly at smaller loads than expected. \\ | ||
+ | Generally, these fasteners are made from the wrong material or they are not properly strengthened during manufacturing. \\ | ||
+ | Either way, counterfeit fasteners can lead to dangerous failures in assemblies. \\ | ||
+ | The law now requires testing of fasteners used in some critical applications. \\ | ||
+ | Detection of counterfeit fasteners is difficult because the counterfeits look genuine. \\ | ||
+ | The only sure way to determine if a fastener meets it's specification is to test it. \\ | ||
+ | However, reputable distributors will assist in verifying the authenticity of the fasteners they sell. \\ | ||
+ | For important applications, fasteners can be checked to determine whether they perform according to the standard. \\ | ||
+ | Typical lab checks used to detect fakes include testing hardness, elongation, ultimate loading and a variety of chemical tests. \\ | ||
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