Short answer: A möhürleme die repair should begin with a written symptom, condition review, affected station, repair boundary, cost authorization, and production reapproval plan. Separate routine maintenance from damage repair, engineering modification, and partial rebuild. After the work, compare first-off parts with the released drawing and last known good evidence. Do not return the die to normal production only because it cycles in the press.
Die repair requests often start with a production symptom: burr growth, hole shift, feed faults, cracked inserts, unstable bend height, surface marks, slug pulling, broken sensors, or an unexpected press stop. The visible failure may not identify the damaged component. A useful repair scope connects tool condition to part evidence before steel is changed.
Use the die maintenance and tool-life guide for planned upkeep. Use this page when a specific repair needs technical and commercial approval.
Classify the work before approving it
| Work type | Typical boundary | Approval question |
|---|---|---|
| Routine maintenance | Cleaning, lubrication, sharpening, adjustment, normal wear-part replacement, and documented preventive work. | Is this included in the production or tooling agreement, and what record confirms completion? |
| Damage repair | Restore a broken, crashed, worn, misaligned, or failed component to the released tool condition. | What failed, why did it fail, what else was inspected, and who authorizes the repair cost? |
| Engineering modification | Change geometry, station sequence, clearance, sensor logic, strip support, or another designed condition. | Does the change require drawing, tool design, sample, capability, or customer approval? |
| Partial rebuild | Replace multiple stations, plates, guidance, controls, or worn systems because local repair will not support the expected program. | Is rebuild still justified against new tooling, remaining demand, downtime, and validation cost? |
If the boundary is unclear, review the die modification versus new tooling guide. Do not label a design change as maintenance only to avoid a controlled approval step.
Freeze the pre-repair evidence
Before disassembly, identify the tool, part number, drawing revision, press line, material, strip condition, last production date, last known good lot, failed lot, current quantity at risk, and observed symptom. Save die and part photos, inspection data, press alarms, sensor history, broken fragments, setup sheets, maintenance records, and operator notes where available.
Compare the defect with first-off, in-process, and last-off results. A burr increase may indicate a punch or die edge issue, but hole shift can also involve pilots, guidance, feed, stock variation, or measurement. A feed crash may damage more than the broken punch. The tooling maintenance audit checklist helps widen the condition review before authorizing a narrow repair.
Write a repair scope that can be inspected
The scope should name each component to inspect, repair, replace, or leave unchanged. Include material or hardness requirements when controlled, interfaces and datums, purchased components, sensor and wiring work, spare parts, drawing updates, photos, marking, and disposition of removed components. Record any area that cannot be inspected without further teardown.
For a transferred or buyer-owned tool, confirm who owns the die data, spares, removed components, and updated records. Use the tool ownership and transfer guide when the repair shop is not the production ü üpjün ediji.
Separate repair cost from responsibility
A repair quotation should show diagnostic work, labor, purchased components, machining, design changes, transport, press tryout, material, sample quantity, inspection, and any outside process. Cost responsibility depends on the tooling agreement, cause, normal wear boundary, maintenance history, crash evidence, buyer changes, and Öňki approvals. This page is an engineering and sourcing checklist, not legal advice.
Do not wait until the tool is complete to ask what was excluded. Clarify whether the quote includes root-cause review, related-station inspection, updated drawings, spare replacement, sample reports, repeat tryout after correction, and shipment packaging. State who can approve work beyond the original limit and the maximum amount that can proceed without a revised purchase order.
Plan bridge supply and spare risk
Record usable inventory, contained inventory, demand by date, expected outage, safe bridge options, alternate tooling, and whether a temporary repair is being considered. A temporary repair needs its own limits, inspection, quantity, expiry, and approval. Do not describe it as permanent because the first small run passes.
Check availability and replenishment time for punches, inserts, pilots, springs, sensors, cams, bushings, guidance, fasteners, and special purchased components. If the failure exposed a missing spare strategy, update the list after repair. For capacity and recovery planning, connect the action to the ü üpjün ediji recovery plan.
Define reapproval before the die returns
The release package should match the risk of the repair. At minimum, confirm the active drawing, material, press and feed setup, repaired station, first-off sample, affected dimensions or functions, burr and visual condition, sensor checks, and quantity reviewed. Broader repairs may require a fuller dimensional report, repeatability sample, controlled run, packaging check, or customer-specific submission.
Use the last known good part or approved sample as supporting evidence, not as a replacement for the drawing. Compare repaired output with the first article inspection checklist and record the first and last pieces through the first-off and last-off guide.
If the tool moves to another press or ü üpjün ediji for repair or tryout, complete the die and press compatibility checklist. A repair result from one setup does not automatically prove the same result in another line.
Prepare a die repair review or RFQ
Use the habarlaşmak page to send the part drawing, die identity, tool type, condition photos, failed and last-good sample photos, symptom, affected dimensions, material, annual demand, inventory coverage, maintenance history, available spares, current location, and required decision date.
For an active repair or replacement comparison, use the RFQ form and state whether you need diagnosis, repair scope, press tryout, sample inspection, transfer support, or a new-tool alternative. A useful response should separate confirmed work, assumptions, exclusions, approval hold points, and release evidence.
FAQ
What information is needed for a möhürleme die repair quote?
Provide the tool and part identity, drawing revision, symptom, condition photos, failed and last-good evidence, maintenance history, affected stations, material, demand, inventory, spares, and required release scope.
Is sharpening a die repair or routine maintenance?
It is often routine maintenance, but the tooling agreement, wear condition, damage, geometry changes, and required reapproval determine the commercial and technical boundary.
When does a die repair need new samples?
New samples are appropriate when the repair can affect dimensions, burrs, forming, feed, surface, sensors, function, or an approved process condition. Sample depth should match risk and customer rules.
How should buyers compare die repair with new tooling?
Compare repair and validation cost, downtime, remaining tool condition, available data and spares, expected demand, repeat-failure risk, production rate assumptions, and future change needs.

