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1、NADCA StandardLinear Dimensions: Standard TolerancesLinear Dimensions: Precision Tolerances Parting Line: Standard TolerancesParting Line Tolerance is the maximum amount of die separation allowed for the end product to meet specified requirements of form, fit and function. This is not to be confused
2、 with Parting Line Shift Tolerance which is the maximum amount die halves shift from side to side in relation to one another.Parting Line Tolerance is a function of the surface area of the die from which material can flow from one die half to the other. This is also known as Projected Area.Projected
3、 Area is always a plus tolerance since a completely closed die has 0 separation. Excess material and pressure will force the die to open along the parting line plane creating an oversize condition. The excess material will cause the part to be thicker than the ideal specification and that is why Pro
4、jected Area only has plus tolerance. It is important to understand that Table S-4A-2 (Projected Area Tolerance) does not provide Parting Line Tolerance by itself. Part thickness or depth must be factored in to give a true idea of Parting Line Tolerance. Parting Line Tolerance is a function of part t
5、hickness perpendicular to the Projected Area plus the Projected Area Tolerance.Example: An aluminum die casting has 75 in2 (483.9 cm2) of Projected Area on the parting die plane. From table S-4A-2, Projected Area Tolerance is +0.012. This is combined with the total part thickness tolerance from tabl
6、e S-4A-1 to obtain the Parting Line Tolerance.The total part thickness including both die halves is 5.00 in. (127 mm) which is measured perpendicular to the parting die plane (dimension “E2 E1”). From table S-4A-1, the Linear Tolerance is 0.010 for the first inch and 0.001 for each of the four addit
7、ional inches. The Linear Tolerance of 0.014 inches is combined with the Projected Area Tolerance of +0.012 to yield a Standard Parting Line Tolerance of +0.026/-0.014 in. or in metric terms 0.35 mm from Linear Tolerance table S-4A-1 plus +0.30 mm from Projected Area Tolerance table S-4A-2 = +0.65/-0
8、.35 mm.Parting Line Shift: Standard ToleranceExample: Parting Line Shift ToleranceThe cavity area at the parting line is 75 inches squared. From Table S-4A-6, the Projected Area Parting Line Shift Tolerance is 0.006 (0,152 mm). This is added to the Linear Tolerance from table S/P-4A-1.Draft Requirem
9、ents: Standard TolerancesIn the case of an inside surface for an aluminum cast part, for which the constant “C” is 30 (6 mm), the recommended Standard Draft at three depths is:Cored Holes for Cut Threads: Standard TolerancesCored holes for cut threads are cast holes that require threads to be cut (t
10、apped) into the metal. The table below provides the dimensional tolerances for diameter, depth and draft for each specified thread type (Unified and Metric Series). When required, cored holes in Al, Mg, Zn and ZA may be tapped without removing draft. This Standard Tolerance recommendation is based o
11、n allowing 85% of full thread depth at the bottom D2 (small end) of the cored hole and 55% at the top D1 (large end) of the cored hole. A countersink or radius is also recommended at the top of the cored hole. This provides relief for any displaced material and can also serve to strengthen the core.
12、Threads extend through the cored hole as by Y. X shows the actual hole depth. As with the countersink at the top of the hole, the extra hole length provides relief for displaced material and allows for full thread engagement. Tolerances below apply to all alloys.Table S-4A-9: Cored Holes for Cut Thr
13、eads (Standard Tolerances) Unified Series and Metric SeriesAdditional Considerations for Large Castings1 Fillet Radii:1.1: Definition: Wall thickness is the distance between two parallel or nearly parallel surfaces. Wall thickness may vary depending on the application of draft. Wall thickness should
14、 be maintained as uniform as possible. A general guideline would be to keep the range of thickness within 2X of the thinnest wall. A second guideline is to keep the wall as thin as possible to meet the castings functional requirements.1.2: General: 0.14” (3.5mm (+/- 0.5mm)1.2.1 Deviations: from the
15、nominal condition are based upon product function and manufacturing process requirements.2 Radii:2.1 Fillet Radii: 2.1.1 General: 0.14” (+0.08/-0.04”) 3.5mm (+2.0mm/-1.0mm)2.1.1.1 Deviations: from the nominal condition are based upon product function and manufacturing process requirements.2.1.2 Mini
16、mum: 0.060” (1.5mm)2.2 Corner Radii:2.2.1 General: 0.060” (+0.08/-0.04”) 1.5mm (+2mm/-1mm)2.2.1.1 Deviations: from the nominal condition are based upon product function and manufacturing process requirements.2.2.2 Minimum: 0.020” (0.5mm)3 Cores:3.1 Guidelines: Cores should be used to minimize machining stock, and should be pulled perpendicular to each other. Use ste
