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Kayıt Tarihi: 22-Haziran-2025 Gönderilenler: 117
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Gönderen: 09-Temmuz-2025 Saat 17:06 | Kayıtlı IP
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Overlooking calibration cycles in high-frequency use
scenarios (e.g., daily testing) leads to degraded
accuracy over time, but cycle matching solutions ensure
probes remain reliable between calibrations.
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High-frequency use accelerates drift in critical
components like pressure sensors and hole geometry. A
production line test found that a generic probe used 10x
daily required recalibration every 30 days to maintain
<1% error, whereas a probe designed for high-frequency
use (with stabilized materials) stayed within tolerance
for 90 days.
Material selection impacts calibration frequency.
Inconel 718 probes have better dimensional stability than
304 stainless steel in high-use scenarios, with 50% less
drift over 1000 tests. A aerospace testing facility
reduced calibration costs by 60% by switching to Inconel
probes for daily engine tests.
Design features like self-compensating sensors (which
adjust for temperature-induced drift) extend calibration
intervals. In a continuous wind tunnel test, probes with
self-compensating sensors maintained accuracy for 120
days, compared to 60 days for standard sensors.
Cycle matching steps include: 1) estimating
daily/weekly usage frequency; 2) selecting probes with
calibration intervals ≥1.5x the usage cycle
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