Engineering Guide / Small Hole Tolerance
Zinc Die Casting Small Hole Tolerance Control Case Study: 5.95mm vs 5.90mm
Engineering judgement, mold-correction priorities and process checks for a 5.95mm vs 5.90mm two-cavity difference in 88T zinc die casting.
Tolerance Reality for Small Die Castings
| Material / Control Level | Realistic Production Tolerance | Engineering Meaning |
|---|---|---|
| Zinc alloy small parts | Around ±0.05mm for ordinary stable production | Realistic for normal mass production when the mold, machine and measurement system are stable. |
| Zinc alloy with good control | Around ±0.03mm | Requires better mold precision, stable mold temperature and stricter measurement discipline. |
| Zinc alloy high-precision target | Within ±0.02mm | Difficult. Usually requires high-precision mold inserts, stable thermal control, strict inspection, and sometimes post-machining or 100% sorting. |
| Aluminum alloy small parts | Around ±0.08-±0.15mm for ordinary stable production | Aluminum die casting has greater shrinkage and thermal variation, so long-term ±0.03mm control is difficult. |
Case Measurement
| Item | Measured Value | Interpretation |
|---|---|---|
| Sample hole size | 5.95mm | Reference size for comparison. |
| Cavity 1 raw casting | 5.95mm | Matches the sample dimension. |
| Cavity 2 raw casting | 5.90mm | 0.05mm smaller than cavity 1. |
| Cavity difference | 0.05mm | Acceptable for many 88T zinc die casting conditions, but worth correcting if this is a key assembly dimension. |
How to Judge the Cause
Correction Priorities
- Measure at least 30-50 pieces per cavity before cutting steel; separate data by cavity number.
- If the difference is stable, correct cavity 2 insert size or shutoff surface rather than adjusting the whole process.
- Check gate balance, runner pressure loss and local filling sequence if cavity 2 is both smaller and lighter.
- Check mold temperature at both cavities because a local temperature difference can change shrinkage and final hole size.
- Confirm measurement method, gauge repeatability and operator consistency before deciding mold correction amount.
- If the hole is a critical assembly feature, reserve post-machining, reaming or 100% sorting as the control plan.
Conclusion: for an 88T zinc die casting project, holding a 5.95mm small hole around ±0.05mm is realistic. If two cavities must be controlled within 0.02-0.03mm, the work should focus on cavity correction, runner balance and mold-temperature stability, not only machine parameter adjustment.
Need help reviewing small-hole dimensional stability?
Send drawings, cavity measurement data, part weight, die casting parameters and mold-temperature records. XSD can help decide whether to correct the cavity, balance the runner or adjust the process window.
Send Dimension Data工程指南 / 小孔尺寸控制
锌合金压铸小孔尺寸控制案例:5.95mm 与 5.90mm 两穴差异
88T 锌合金压铸中 5.95mm 与 5.90mm 两穴差异的工程判断、修模优先级和工艺排查方法。
小件压铸公差现实
| 材料 / 控制水平 | 现实量产公差 | 工程含义 |
|---|---|---|
| 锌合金小件 | 普通稳定量产约 ±0.05mm | 模具、机器和测量系统稳定时,这是比较现实的量产水平。 |
| 锌合金控制较好 | 约 ±0.03mm | 需要更好的模具精度、稳定模温和严格测量管理。 |
| 锌合金高精度目标 | 控制在 ±0.02mm 以内 | 难度较高,通常需要高精密模具、稳定热控制、严格检测,甚至后加工或全检分选。 |
| 铝合金小件 | 普通稳定量产约 ±0.08-±0.15mm | 铝合金压铸收缩和热波动更大,长期稳定 ±0.03mm 很难。 |
本案例测量数据
| 项目 | 测量值 | 判断 |
|---|---|---|
| 样品孔尺寸 | 5.95mm | 作为对比基准。 |
| 1 号穴素材 | 5.95mm | 与样品尺寸一致。 |
| 2 号穴素材 | 5.90mm | 比 1 号穴小 0.05mm。 |
| 两穴差异 | 0.05mm | 对 88T 锌合金压铸不算异常大;但如果是关键装配孔,已经值得修模或调整工艺。 |
原因判断方法
修正优先级
- 修模前至少按穴号分别测量 30-50 件,不能把两个穴的数据混在一起看。
- 如果差异稳定,优先修正 2 号穴镶件尺寸或相关封胶面,而不是整体调工艺。
- 如果 2 号穴尺寸更小且重量更轻,应检查浇口平衡、流道压损和局部充填顺序。
- 检查两个穴的模温差异,因为局部模温不同会改变收缩和最终孔尺寸。
- 修模前确认测量方法、检具重复性和操作员一致性,避免把测量误差当成模具误差。
- 如果该孔是关键装配尺寸,应预留后加工、铰孔或全检分选作为控制方案。
结论:88T 力劲机做 5.95mm 这种锌合金小孔,稳定做到 ±0.05mm 是现实的;如果两穴差要控制到 0.02-0.03mm,需要重点修正模穴、流道平衡和模温,而不是只靠调机参数。