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CMM inspection of cardiovascular tooling part ISO 13485 first article inspection report for cardiovascular tooling
Boston Scientific Cardiovascular Tooling QA Supplier

Quality Assurance in
Maple Grove, MN

Documentation-first quality for Boston Scientific cardiovascular tooling teams in Maple Grove. Zeiss CMM on every order: nitinol mandrel OD at 36 angular positions, stent die bore geometry and lumen concentricity, ASTM A967 passivation certs for 316L and 17-4 PH. ISO 13485:2016 FAI reports with every WATCHMAN and stent tooling lot.

ISO 13485:2016 · ASTM F2063 · ISO 25539 aware · NDAs signed before file review · Boston Scientific supplier quality system alignment.

CNC machining with full quality assurance for Maple Grove, MN. RivCut supplies CNC machining with full quality assurance to engineering and manufacturing teams across Maple Grove and the Upper Midwest. Parts are machined 100% in the USA at our Union City, California facility and reach Maple Grove in about 4–5 business days by ground freight — with expedited air and AOG options when a production line is down.

Cardiovascular Systems, Inc. (CSI) produces orbital and rotational atherectomy catheters near Maple Grove. Every Maple Grove order ships with CMM inspection, full material traceability, and a first-article report on request.

±0.0001"
Zeiss CMM accuracy
nitinol mandrel OD
NIST-traceable
36
Angular positions
mandrel OD mapped
10° increments
ASTM A967
Passivation cert
316L & 17-4 PH tooling
Ferroxyl test included
100%
CMM reports
21 CFR Part 11 compliant
PDF/A + audit trail

What Does Cardiovascular Tooling QA Actually Mean?

Most shops say "we do CMM inspection." A Maple Grove cardiovascular tooling supplier says something very different: ISO 13485:2016 quality management with lot traceability back to the Device History Record, FDA 21 CFR 820 QSR receiving-inspection conformance, 21 CFR Part 11 electronic records with audit trails on every measurement, ASTM F2063 nitinol material certification traced to heat and lot, ASTM A967 passivation travelers with ferroxyl test results for all stainless tooling, Zeiss CMM with nitinol mandrel OD mapped at all 36 angular positions for WATCHMAN expansion uniformity assurance, and stent die bore geometry, lumen concentricity, and clearance-angle verification per ISO 25539 tooling requirements. Boston Scientific cardiovascular programs demand that whole stack, not just the measurement step.

1

Plan the Quality

Ballooned drawing, ISO 13485 clause mapping, PFMEA, control plan, and DHR linkage before the first chip flies. For nitinol mandrels: 36-position OD measurement protocol defined up front.

2

Inspect with Evidence

Zeiss CMM with feature-by-feature actuals, GD&T to ASME Y14.5-2018, Cpk studies on mandrel OD taper zones, stent die bore/concentricity/clearance-angle actuals, and 21 CFR Part 11 audit-trail PDF/A output.

3

Ship the Package

First article with 36-position OD polar map, CMM report, 3.1 ASTM F2063 mill cert, passivation traveler, PEEK USP Class VI data sheet where applicable, and a CofC tied to ISO 13485 clause 7.5. Nothing chased after the fact.

Maple Grove Cardiovascular Tooling & Their QA Footprint

From WATCHMAN expansion mandrels to stent laser-cutting die sets, each Boston Scientific tooling type has a different CMM protocol and documentation trail. Here is what we cover and how.

Maple Grove (pop. ~70K) hosts Boston Scientific's WATCHMAN FLX left-atrial appendage closure and PROMUS/Synergy coronary stent manufacturing operations. Both programs depend on precision cardiovascular tooling — nitinol expansion mandrels and heat-setting fixtures for the WATCHMAN nitinol frame, and stainless laser-cutting die sets, crimping mandrels, and inspection gauges for the coronary stent program. That tooling drives a documentation-heavy QA stack: ISO 13485:2016 plus FDA 21 CFR 820 QSR plus ASTM F2063 nitinol traceability plus ASTM A967 passivation plus 21 CFR Part 11 electronic records plus Cpk ≥ 1.67 on mandrel OD critical features.

The surrounding Maple Grove cluster adds to the load: Cardiovascular Systems, Inc. (CSI) atherectomy catheter tooling, SurModics surface-treatment process fixtures, and Upsher-Smith Labs manufacturing support tooling. Each customer expects a QA package that speaks ISO 13485 and 21 CFR 820 fluently on day one, with ASTM F2063 and ISO 25539 standards awareness built in.

Nitinol Expansion Mandrels (WATCHMAN)

WATCHMAN FLX expansion mandrels in nitinol (ASTM F2063). Zeiss CMM OD measurement at all 36 angular positions (10° increments), Cpk ≥ 1.67 on critical taper zones, EN 10204 3.1 mill cert with Af transformation temperature confirmation. First article with polar OD deviation map on every lot.

ASTM F2063 Nitinol · 36-position OD map

Stent Laser-Cutting Die Sets

316L and 17-4 PH stent die sets with Zeiss CMM verification of bore diameter (lumen clearance), bore concentricity relative to mounting datum, clearance angle geometry (0.5–2°), chamfer inlet/outlet geometry, and face parallelism. ASTM A967 Nitric 2 passivation with ferroxyl test result. ISO 13485 FAIR on every campaign.

316L / 17-4 PH · ASTM A967 · ISO 25539

PEEK Catheter Hub Production Runs

PEEK (ASTM F2026) catheter hubs for WATCHMAN delivery system and coronary catheter programs. 100% CMM on fluid-path bore, seal-face OD, and connector geometry. USP Class VI biocompatibility data sheet. ISO 13485 first article and 21 CFR Part 11 PDF/A inspection records on every production lot.

PEEK F2026 · USP Class VI · 100% CMM

17-4 PH Inspection Gauges

Stent OD/ID go/no-go gauges, crimper mandrel gauges, and WATCHMAN frame inspection fixtures in 17-4 PH H900. ASTM A967 Citric 3 passivation, Cpk studies on gauge OD, Ra finish verification on gauge surfaces. ISO 13485 CofC with gauge calibration traceability to NIST.

17-4 PH H900 · ASTM A967 Citric 3

Nitinol Heat-Setting Fixtures

WATCHMAN frame heat-setting fixtures and nitinol component setting mandrels. CMM verification of form accuracy against the target Af profile geometry. ASTM F2063 material traceability. ISO 13485 first article. 21 CFR Part 11 compliant inspection records tied to the validated heat-treatment IQ/OQ/PQ process lot.

ASTM F2063 · IQ/OQ/PQ linkage

Stent Crimping Mandrel Sets

316L and 15-5 PH crimping mandrels for coronary stent assembly. CMM verification of mandrel OD profile, taper geometry, and Ra surface finish on the stent-contact zone. ASTM A967 passivation, EN 10204 3.1 mill cert, ISO 13485 FAIR with every crimping mandrel production set.

316L / 15-5 PH · ASTM A967 · Surface Ra
Zeiss CMM inspection of WATCHMAN nitinol expansion mandrel for Maple Grove Boston Scientific program
ISO 13485 FAIR — 36-Position OD Map, Cpk 1.79

WATCHMAN FLX 28mm Expansion Mandrel — ASTM F2063 Nitinol

Produced as a first-article lot for a Maple Grove WATCHMAN cardiovascular tooling program. ASTM F2063 nitinol bar stock with Af temperature confirmation, 5-axis CNC turned and polished, Zeiss CMM run with 36-position OD polar map at every 10-degree interval across three axial stations. Cpk 1.79 on the critical taper zone. Shipped with full ISO 13485 documentation to Maple Grove in 7 business days.

±0.0001"
OD accuracy
mandrel taper zone
36
Angular OD positions
CMM-mapped
Cpk 1.79
Process capability
critical taper CTQ
100%
FAIR pass rate
first submission
  • ISO 13485:2016 first-article inspection with full ballooned callouts
  • 36-position OD polar map with Cpk data on critical taper zone
  • EN 10204 3.1 ASTM F2063 mill cert with Af transformation temperature
  • CMM report as 21 CFR Part 11 PDF/A with embedded audit trail
  • CofC aligned to ISO 13485 clause 7.5 and 21 CFR 820.80 receiving inspection

Inspection. Traceability. Process Control.

The three pillars of a Maple Grove-grade cardiovascular tooling QA package. Missing any one of them leaves a gap in the WATCHMAN or stent tooling Device History Record.

Inspection Evidence

Measurements are reported, not just made.

  • Zeiss CMM at ±0.0001", NIST-traceable
  • 36-position OD polar map for nitinol mandrels
  • 21 CFR Part 11 PDF/A with audit trail
  • Cpk ≥ 1.67 on CTQ features per lot

Material Traceability

Every part traced from finished dimension back to melt.

  • EN 10204 3.1 mill cert per heat / lot
  • ASTM F2063 nitinol with Af temperature
  • ASTM F138 316L, F899 17-4 PH, F90 Co-Cr L-605
  • PEEK USP Class VI data sheet for catheter hubs

Process Control

Special processes routed through validated partners.

  • ASTM A967 Nitric 2 / Citric 3 passivation
  • Ferroxyl test included with every traveler
  • IQ/OQ/PQ validated process lot linkage
  • Boston Scientific supplier quality system alignment

From Ballooned Drawing to Shipped Package

Three steps. No missing certificates. Built for Boston Scientific cardiovascular tooling supplier-quality auditors.

Step 1

Submit Drawing, Model & Tooling Specs

Upload STEP AP242 model and ballooned 2D drawing. Call out ASTM F2063 nitinol, ASTM F138/F899/F90 stainless/Co-Cr material, ISO 13485 clause references, 21 CFR Part 11 expectations, and WATCHMAN or stent program context. Flag 36-position OD measurement protocol for mandrels. We confirm Boston Scientific supplier quality system alignment before quoting.

Step 2

Machine, Passivate, and Inspect

We machine in Union City, CA. Passivation runs ASTM A967 Nitric 2 or Citric 3 for all stainless tooling. Zeiss CMM runs ISO 13485 first-article balloon report with 36-position OD polar map for mandrels, or bore/concentricity/clearance-angle verification for stent dies, output as 21 CFR Part 11 PDF/A with Cpk data on every CTQ feature.

Step 3

Ship Part + Full Package to Maple Grove

Part, FAIR or PPAP-equivalent, CMM report with OD polar map and Cpk data, 3.1 ASTM F2063/F138/F899 mill cert, passivation traveler, PEEK USP Class VI data sheet, and a CofC aligned to ISO 13485 clause 7.5 and 21 CFR 820 QSR arrive together. 3-day ground LTL via I-94 to Maple Grove or next-day SFO to MSP air on urgent WATCHMAN or stent production work.

Why Maple Grove, MN Cardiovascular Tooling Teams Choose RivCut

Maple Grove (pop. ~70K, Hennepin County, ZIP 55369) is home to Boston Scientific's WATCHMAN FLX and coronary stent manufacturing operations. Cardiovascular tooling demand spans nitinol expansion mandrels, stent laser-cutting die sets, crimping mandrels, heat-setting fixtures, and inspection gauges for the WATCHMAN and PROMUS/Synergy programs. The nearby Cardiovascular Systems, Inc. (CSI) and SurModics operations add interventional-cardiology catheter tooling and surface-treatment fixture QA requirements. RivCut machines, inspects, and passivates cardiovascular tooling parts at our Union City, CA facility, shipping 3-day ground LTL via I-94 to Maple Grove or next-day SFO to MSP air cargo for production-critical windows.

All parts are CNC machined in-house at our Bay Area shop. We never broker or outsource the machining. Learn about RivCut →

Common Questions About Cardiovascular Tooling QA in Maple Grove

Maple Grove cardiovascular tooling programs require ISO 13485:2016 quality management and FDA 21 CFR 820 Quality System Regulation conformance at minimum. Boston Scientific supplier programs additionally expect 21 CFR Part 11 compliant electronic records with audit trails, ASTM F2063 nitinol traceability, ASTM A967 passivation certification for 316L and 17-4 PH tooling, first-article inspection reports with every WATCHMAN and stent tooling lot, and Cpk data on critical-to-quality features such as nitinol mandrel OD at all 36 angular positions.
WATCHMAN FLX expansion mandrels and nitinol heat-setting fixtures require OD uniformity across the full 360-degree circumference to ensure uniform Af (austenite finish temperature) transformation. Our Zeiss CMM protocol takes OD measurements at every 10 degrees around the mandrel body — 36 positions total — across multiple axial stations depending on mandrel length. This generates a full polar OD map, Cpk data on the critical taper zones, and a visual deviation plot. If any position exceeds ±0.0001 inch, we flag it before the part ships.
For 316L and 17-4 PH stent laser-cutting die sets we run Zeiss CMM on: bore diameter (lumen clearance to laser beam path tolerance), bore concentricity relative to outer mounting datum, clearance angle geometry (typically 0.5–2 degrees for strut kerf relief), chamfer geometry at the inlet and outlet, and parallelism of the die faces. These five features map directly to stent strut width uniformity and kerf symmetry per ISO 25539 tooling requirements. We report actuals, nominals, tolerances, and pass/fail against your drawing callouts.
ASTM A967 is the standard for passivation of stainless steel parts. For Maple Grove cardiovascular tooling we run Nitric 2 or Citric 3 depending on alloy and program requirements. On 316L stent dies, passivation removes free iron from the machined bore surface so the passive chromium-oxide layer reforms evenly — critical because free-iron contamination on the die bore can cause stainless-steel residue transfer to stent struts during laser cutting. On 17-4 PH inspection gauges, passivation protects the hardened surface against rust formation that would alter gauge OD. We ship passivation travelers with bath chemistry, temperature, dwell time, and a post-treatment ferroxyl test result.
Yes. Every digital inspection report we ship is 21 CFR Part 11 aligned: electronic signatures with unique user ID and timestamp, audit trails tracking every edit with before and after values, tamper-evident PDF/A exports, and retention periods matched to DHR requirements. Our CMM software generates Part 11 compliant reports natively, with the nitinol mandrel OD polar plots and Cpk data embedded in the same audit-trail PDF/A that Boston Scientific supplier quality receives.
Every part ships with an EN 10204 3.1 mill test report tied to heat and lot. For nitinol tooling stock we source ASTM F2063-compliant bar and tube with certs showing Ni-Ti chemistry, Af transformation temperature, and superelastic phase confirmation. For stainless tooling we stock ASTM F138 316L and F899 17-4 PH with 3.1 MTRs. For Co-Cr L-605 stent tooling we source per ASTM F90 with 3.1 MTRs. PEEK catheter hub material ships with a USP Class VI biocompatibility data sheet where tissue-contact applies.
Every WATCHMAN tooling lot ships with: ISO 13485:2016 first-article inspection with full ballooned drawing callouts, Zeiss CMM report with 36-position OD polar map and Cpk data on taper-critical zones, EN 10204 3.1 ASTM F2063 mill cert for nitinol stock traced to heat and lot with Af temperature, ASTM A967 passivation traveler with ferroxyl test result for any stainless components, and a Certificate of Conformance aligned to ISO 13485 clause 7.5 and FDA 21 CFR 820.80 receiving-inspection expectations. The documentation package is structured to import directly into your Device History Record.
The Device Master Record (DMR) is the recipe: tooling drawings, specs, process instructions, and WATCHMAN or stent program context. The Device History Record (DHR) is the evidence that one specific lot was built to the DMR: travelers, CMM data, material certs, operator sign-offs, and passivation records. Our shipping package is structured so every tooling lot's DHR entries cross-reference a DMR revision number, with 21 CFR Part 11 electronic records for every measurement. Lot genealogy flows both forward into the customer's DHR and backward to our shop traveler.
Zeiss CMM at ±0.0001 inch accuracy for nitinol mandrel OD measurement, NIST-traceable. We report feature-by-feature actuals, nominals, tolerances, and pass/fail status to ASME Y14.5-2018 GD&T. For the 36-position OD polar map, Cpk is calculated on the taper and parallel sections separately, since the critical Af transformation zones often have different tolerance windows on the same mandrel.
A typical ISO 13485 first article with ballooned drawing and 15 to 30 features, including the 36-position nitinol OD map, ships within 5 to 7 business days of part completion. A full PPAP-equivalent submission (control plan, PFMEA, MSA, Cpk study, initial samples) for Boston Scientific validated production approval adds 3 to 5 business days.
Yes. We machine and inspect in Union City, CA and ship ground LTL to Maple Grove, MN via I-94/I-90 in 3 business days. For schedule-critical WATCHMAN or stent tooling, SFO to MSP air cargo is next-day. All packages are delivered with a Certificate of Conformance aligned to ISO 13485 clause 7.5 and FDA 21 CFR 820.80 receiving-inspection expectations, and the documentation package matches what Boston Scientific cardiovascular tooling programs expect.
Maple Grove hosts Boston Scientific's WATCHMAN FLX left-atrial appendage closure and PROMUS/Synergy coronary stent programs. These require nitinol tooling (expansion mandrels, heat-setting fixtures) and stainless tooling (stent laser-cutting dies, crimping mandrels, inspection gauges) machined to ISO 13485:2016 with full ASTM F2063 nitinol traceability, ASTM A967 passivation, and Cpk ≥ 1.67 on critical mandrel OD features. The nearby CSI and SurModics operations add interventional-cardiology catheter tooling and surface-treatment process fixture QA requirements. That documentation stack is the baseline for Maple Grove cardiovascular work, not the exception.
Materials

Cardiovascular Tooling Materials Stocked for Maple Grove QA Work

Every alloy ships with a 3.1 mill cert traced to heat and lot, cross-checked against ASTM F2063, F138, F899, F90, F2026, and F1472 requirements. ASTM A967 passivation available for all stainless tooling. ASTM F2063 Af temperature confirmation available for all nitinol stock.

Key cardiovascular tooling grades stocked — each shipped with EN 10204 3.1 mill cert and ASTM cross-reference on request.
Nitinol (ASTM F2063)
Nitinol Bar / TubeASTM F2063, WATCHMAN expansion mandrels, heat-setting fixtures, superelastic tooling; 3.1 MTR with Af temperature
Implant Stainless (ASTM F138 / F899)
316L CRESASTM F138, stent laser-cutting dies, catheter hub bodies; ASTM A967 Nitric 2 passivation
17-4 PH H900ASTM F899, stent die sets (high-wear applications), inspection gauges; ASTM A967 Citric 3
15-5 PH H900Crimping mandrels, delivery-system fixture hardware; ASTM A967 passivation
Cobalt-Chromium (ASTM F90)
Co-Cr L-605ASTM F90, stent die inserts for extreme-wear applications, WATCHMAN frame tooling inserts
Titanium (ASTM F1472)
Ti-6Al-4VASTM F1472, catheter delivery handle fixtures, lightweight tooling frames
Polymers (PEEK / Medical PC)
PEEK (ASTM F2026)ASTM F2026 / USP Class VI, WATCHMAN delivery catheter hubs, coronary catheter hub inserts
Medical PolycarbonateUSP Class VI, transparent fluid-path details and catheter delivery handle housings
Aluminum and General Tooling
6061-T6Process fixtures, assembly jigs, inspection fixture frames; hard anodize available
4140 Pre-hardStent die backing plates, fixturing structures, production tooling support bodies

Need a specific ASTM callout or Af temperature range? Ask us — we stock and trace cardiovascular tooling grades on request.

How We Compare

RivCut vs CNC Marketplaces vs Local Machine Shops

Why quality engineers supporting Boston Scientific cardiovascular tooling programs choose RivCut. Marketplaces quote fast but rarely carry nitinol machining capability or ASTM F2063 traceability discipline. Local Twin Cities shops are rigorous but slow on quotes. RivCut combines instant online quoting with the 36-position mandrel OD inspection and passivation documentation a Boston Scientific supplier-quality audit actually requires.

What You Get RivCut Best CNC Marketplace Local Machine Shop
ISO 13485:2016 alignmentQMS mapped on every new PNPaid upgrade or not offeredVaries by shop
Nitinol mandrel 36-position OD mapZeiss CMM, every 10°, Cpk dataNot offeredVaries by shop
21 CFR Part 11 compliant recordsPDF/A + audit trail + e-sigNot supportedAd-hoc paperwork
ASTM F2063 nitinol traceability3.1 MTR with Af temperatureOften not stockedOn request
ASTM A967 passivation travelerNitric 2 / Citric 3, ferroxyl testNot offeredVaries by shop
Stent die CMM (bore/concentricity/angle)5-feature verification per dieManual gauge typicalVaries by shop
Lead time to FAI / PPAP-equivalent5–7 business days (3 rush)2–3 weeks typical3–5 weeks
Ship to Boston Scientific Maple Grove3-day LTL / next-day air5–7 days transitLocal delivery
Customer Reviews

What Quality Engineers Say
About Working With RivCut

Real reviews from engineers shipping to Boston Scientific Maple Grove and the broader cardiovascular tooling cluster.

RT
Rachel T.
Supplier Quality Engineer, WATCHMAN Tooling Program
★★★★★

RivCut shipped the WATCHMAN mandrel lot with 36-position OD mapping at every 10-degree interval, Cpk 1.79 on the critical taper zones, and a full ASTM F2063 3.1 mill cert. The first article cleared our Boston Scientific supplier quality review on first submission. That almost never happens with a West Coast shop.

WATCHMAN Tooling
KM
Kevin M.
Process Engineer, Coronary Stent Die Program
★★★★★

316L stent laser-cutting dies with Zeiss CMM on bore geometry, clearance angles, and lumen concentricity. ASTM A967 passivation traveler with ferroxyl test. Every document we needed for our DHR was already in the package when the box arrived. No chasing certs after the fact.

Stent Die Sets
DL
Diana L.
Quality Assurance Manager, Catheter Hub Production
★★★★★

PEEK catheter hub production run with 100% CMM on the fluid-path bore and seal-face features. ISO 13485 first article, 21 CFR Part 11 PDF/A, EN 10204 3.1 PEEK cert. Documentation discipline you'd expect from a Medical Alley shop, not a California supplier. We're running kanban replenishment now.

PEEK Catheter Hubs

How Maple Grove's Cardiovascular Tooling Cluster Uses Quality Assurance

Boston Scientific anchors Maple Grove with WATCHMAN and coronary stent production. Here is how each layer of the cardiovascular tooling supply chain uses a QA package.

Boston Scientific WATCHMAN & Stent Programs

Boston Scientific's Maple Grove operations produce the WATCHMAN FLX left-atrial appendage closure device and PROMUS/Synergy coronary stents. Both programs require precision nitinol and stainless tooling: WATCHMAN nitinol expansion mandrels measured to ±0.0001 inch OD at 36 angular positions, stent laser-cutting die sets with CMM-verified bore geometry and lumen concentricity, crimping mandrel sets for coronary stent assembly, and inspection gauges for process control. Supplier quality expectations include ISO 13485:2016, FDA 21 CFR 820, 21 CFR Part 11, ASTM F2063 nitinol traceability, and ASTM A967 passivation certification.

RivCut gives Boston Scientific cardiovascular tooling teams ISO 13485 first articles with 36-position OD polar maps, ASTM A967 passivation travelers, 21 CFR Part 11 CMM reports, and CofCs aligned to clause 7.5 that clear receiving inspection on first submission.

WATCHMAN FLXPROMUS / Synergy StentASTM F2063ISO 25539
Insider tip: WATCHMAN mandrel OD uniformity at all 36 angular positions is the most critical CTQ: any position deviation > ±0.0001 inch causes non-uniform frame expansion and potential Af transformation variability. Specify the 36-position OD measurement as a ballooned callout on your mandrel drawing so it lands in the CMM program, not as a verbal note-to-supplier.

CSI & SurModics — Atherectomy & Surface-Treatment Tooling

Cardiovascular Systems, Inc. (CSI) produces orbital and rotational atherectomy catheters near Maple Grove. CSI catheter tooling includes guidewire handling fixtures, orbital crown test fixtures, and catheter assembly jigs machined in 316L and 17-4 PH. SurModics manufactures surface-treatment coatings used on interventional devices, driving demand for precision treatment fixture tooling held to tight Ra surface finish requirements so the coating process applies uniformly. Both customers expect ISO 13485:2016 first articles, ASTM A967 passivation for stainless tooling, and 21 CFR Part 11 CMM records.

RivCut supports CSI and SurModics tooling with 316L and 17-4 PH machining, ASTM A967 passivation, Ra finish verification on coating-contact surfaces, and ISO 13485 documentation structured for direct DHR import.

CSI AtherectomySurModics Coating316L / 17-4 PHSurface Ra
Insider tip: SurModics coating fixtures require Ra ≤ 0.4 µm on the fixture surface that contacts the device during coating. Specify this as a ballooned finish callout on the drawing with a profilometer-traceable measurement, not a visual inspection note — otherwise your coating uniformity validation will have a documentation gap.

Nitinol Tooling QA Specialty

Nitinol tooling quality assurance is fundamentally different from stainless or titanium tooling QA — it is transformation-mechanics-driven, not just geometry-driven. The WATCHMAN mandrel OD uniformity requirement exists because nitinol Af transformation temperature is sensitive to residual stress induced by OD variation during heat-setting. A mandrel that is 0.0002 inch out-of-round at any angular position can create a localized stress differential in the frame that shifts Af by 2–4°C at that location, causing non-uniform expansion under body temperature. Standard CMM OD measurement at 3 or 4 positions misses this. The 36-position protocol was developed specifically to catch the out-of-round profile that drives Af spatial variability.

RivCut's nitinol tooling QA protocol — 36-position OD map, Af temperature cert, ASTM F2063 3.1 MTR, and 21 CFR Part 11 PDF/A — is built for the transformation-mechanics demands of WATCHMAN and coronary stent nitinol tooling, not just the dimensional requirements.

Nitinol Af Transformation36-Position OD MapASTM F3057 DSCCpk ≥ 1.67
Insider tip: Request ASTM F3057 DSC (differential scanning calorimetry) data with your nitinol bar stock order, not just the F2063 chemistry cert. The F2063 cert confirms composition; the F3057 data confirms actual Af transformation temperature. Both are needed to fully validate your heat-setting process for a 21 CFR 820.75 IQ/OQ/PQ record.

Built for Boston Scientific's Cardiovascular Tooling QA Stack

The Maple Grove cardiovascular tooling QA stack is as documentation-heavy as anything in Medical Alley, but the vocabulary is entirely different from implantable device QA. A single WATCHMAN FLX expansion mandrel lot ships with: ISO 13485:2016 first-article inspection (ballooned drawing with all feature callouts, 100% pass on first article of any lot), FDA 21 CFR 820 Quality System Regulation conformance with receiving-inspection alignment to 820.80, 21 CFR Part 11 compliant electronic records (audit trail, electronic signatures, tamper-evident PDF/A), Zeiss CMM report with 36-position OD polar map at every 10-degree interval across three axial stations, Cpk ≥ 1.67 on critical taper zone CTQ features, EN 10204 3.1 ASTM F2063 mill cert traced to heat and lot with Af transformation temperature confirmed per ASTM F3057 DSC, ASTM A967 passivation traveler for any stainless tooling components with ferroxyl test result, PEEK USP Class VI biocompatibility data sheet for catheter hub components, and a Certificate of Conformance cross-referencing ISO 13485 clause 7.5 plus 21 CFR 820 QSR receiving-inspection requirements. Those records feed forward into the customer's Device History Record (DHR) and backward to the Device Master Record (DMR) revision number on every shop traveler. That is what Maple Grove cardiovascular tooling QA means in practice. Generic shops say ‘we CMM inspect.’ A Maple Grove cardiovascular tooling supplier says ‘ISO 13485 FAIR with 36-position nitinol OD polar map, Cpk 1.67+ on taper CTQ, ASTM F2063 3.1 cert with Af temperature, A967 Nitric 2 passivation with ferroxyl, and 21 CFR Part 11 PDF/A.’ RivCut runs the full Maple Grove cardiovascular tooling stack from our Union City, CA shop floor: same Zeiss CMM, same 3.1 MTR discipline, same refusal to chase certs after the fact. That is what the documentation burden of cardiovascular tooling actually requires, and it is why Boston Scientific and CSI tooling teams keep coming back.

Upload Your Drawing & Model for a Maple Grove QA Quote

ISO 13485:2016. 21 CFR Part 11 electronic records. Nitinol mandrel 36-position OD inspection. ASTM F2063 traceability. ASTM A967 passivation. FAI packages in 5 to 7 business days, 3 on rush.

ISO 13485 FAIR · 21 CFR Part 11 · ASTM F2063 nitinol traceability · ASTM A967 passivation · 3-day LTL to Maple Grove

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Ask about ISO 13485, ASTM F2063, WATCHMAN tooling QA

Hi! I'm RivCut's AI assistant. Ask me anything about cardiovascular tooling quality assurance — ISO 13485:2016, 21 CFR Part 11, nitinol mandrel 36-position OD inspection, ASTM F2063 traceability, ASTM A967 passivation, or WATCHMAN tooling documentation.