Payload center
Shows the response of the protected product mass and helps compare overall hold behavior between layouts.
Packout engineering and test planning
Define the product limits, route pressure, insulation, coolant layout, logger positions, environmental challenge, and acceptance criteria before a packout becomes a repeatable shipping instruction.
Prepare the test request
Select the conditions already known. The result recommends a practical starting scope, not a certified qualification or guaranteed hold time.
Include in the test scope
Define the system
Changing one input can change the temperature curve, so the test brief should identify all six before results are compared.
Target range, excursion allowance, freeze sensitivity, and arrival condition.
Mass, dimensions, thermal properties, starting temperature, and fill pattern.
Transit time, dwell, season, handoffs, carrier, customs, and receiving delay.
Usable volume, wall structure, closure, liner fit, and air gaps.
Coolant type, mass, conditioning, placement, separation, and remaining state.
Logger map, test profile, acceptance criteria, arrival checks, and report scope.
Measure more than one location
A center logger alone may miss a hot edge or a cold-contact point. Final positions depend on the payload geometry, coolant layout, and acceptance plan.
Shows the response of the protected product mass and helps compare overall hold behavior between layouts.
Place a logger near the payload surface closest to conditioned or frozen coolant when freezing or cold shock is a concern.
Monitor an exposed wall, lid, seam, or air gap where ambient heat may reach the payload first.
From requirement to repeatable packout
Test results are meaningful only when payload, conditioning, packing order, ambient challenge, and acceptance rules are recorded together.
Phase 1
Record product limits, allowable excursion, route duration, arrival checks, and responsible approval team.
Phase 2
Select insulation, coolant mass, conditioning, separators, payload arrangement, closure, and logger map.
Phase 3
Use an agreed ambient profile or controlled route trial that reflects the intended lane and season.
Phase 4
Compare temperature traces, hot and cold spots, moisture, leakage, carton condition, and receiving quality.
Phase 5
Issue packing instructions, component specifications, training checks, report references, and re-test triggers.
Review the complete result
The temperature curve is important, but it should remain connected to the exact packout and its physical condition after the test.
| Record | What to capture | Why it matters |
|---|---|---|
| Configuration | Shipper, internal dimensions, payload, coolant type and mass, separation, closure, and packing order. | Allows the tested setup to be rebuilt without guessing. |
| Conditioning | Payload starting temperature, coolant conditioning, freezer or staging time, and packing start time. | Separates component performance from preparation errors. |
| Logger map | Logger IDs, calibration status where required, exact positions, recording interval, and ambient logger. | Explains which location each curve represents. |
| Temperature result | Time in range, minimum and maximum, excursion timing, edge and center differences, and remaining margin. | Connects the trace to the agreed acceptance criteria. |
| Physical condition | Leakage, condensation, wet-out, carton strength, product movement, seals, labels, and remaining coolant. | Checks whether the packout arrives usable, not merely cold. |
| Decision | Approved scope, limitations, required adjustment, repeat test, route trial, and change-control triggers. | Prevents a screening result from being treated as universal approval. |
Match the evidence to the risk
Use when comparing shipper sizes, coolant mass, placement, or separation before the final design is selected.
Use when the complete configuration needs defined acceptance criteria, logger evidence, packing instructions, and a controlled report.
Use for high-value, regulated, seasonal, export, or business-critical lanes where the buyer’s QA team defines formal protocol and approval requirements.
Protect the approved configuration
Different insulation, wall thickness, dimensions, closure, carton, liner, or internal air space.
Different formulation, mass, size, conditioning, quantity, placement, or separator thickness.
Different product, thermal mass, fill level, starting temperature, primary pack, or sensitivity.
Longer duration, carrier, season, destination, air leg, customs dwell, handoff, or receiving process.
Prepare before requesting a test
Choose a starting shipper and coolant family before comparing test candidates.
Route toolScreen dwell, seasonal, customs, tarmac, monitoring, and handoff pressure.
Coolant toolPrepare a first-pass coolant quantity assumption for chilled packout samples.
Frozen toolPrepare frozen-lane assumptions before carrier review and test planning.
Validation centerReview test scope, route risk, SOPs, acceptance criteria, and evidence planning.
Pharmaceutical OEMApply no-freeze separation, conditioned coolant, payload-chamber, and monitoring requirements.
Food delivery OEMConnect packout testing to meal composition, doorstep dwell, condensation, and receiving quality.
Questions before testing
No. Screening compares design directions. Formal qualification requires an agreed protocol, acceptance criteria, controlled methods, documented repetitions where applicable, and approval by the responsible quality team.
Test the complete configuration that will be used: payload, starting temperature, shipper, coolant, conditioning, separation, closure, logger map, ambient challenge, and packing sequence.
The number depends on packout size, payload geometry, coolant placement, expected hot and cold spots, and protocol requirements. A center, cold-contact, warm-edge, and ambient position may be considered for early design work.
No. Results apply to the recorded assumptions and test scope. Changes in product, packaging, coolant, route, season, carrier, or operating process may require review or re-testing.
It may be used during development if its mass and thermal behavior are suitable for the comparison. The final test scope should state what was used and whether actual product testing is required.
Send the product temperature limits, sensitivity, payload dimensions and mass, route duration, season, handoffs, shipper options, coolant assumptions, monitoring needs, and expected report or approval level.
Share the payload, required temperature range, route duration, ambient challenge, packaging family, coolant assumptions, and evidence needs. Tempk can review the practical starting scope before samples are prepared.