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CNC machined 316L stent die set in validated production for Boston Scientific Nitinol WATCHMAN mandrel with ASTM A967 passivation and lot traceability documentation
Boston Scientific Cardiovascular Tooling Production Supplier

Production Runs in
Maple Grove, MN

Validated production for Maple Grove cardiovascular tooling programs: stent die sets (10–50 pcs/campaign), kanban nitinol mandrel replenishment, and PEEK catheter hub runs (100–1,000 pcs). ISO 13485, 21 CFR 820.75 validated process, Cpk ≥ 1.67 on every CTQ, and full lot traceability on every shipment.

ISO 13485:2016 · FDA 21 CFR 820 · ASTM F2063 · ISO 25539 · Boston Scientific PPAP-equivalent rigor.

Production-run CNC machining for Maple Grove, MN. RivCut supplies production-run CNC machining to engineering and manufacturing teams across Maple Grove and the Upper Midwest and nearby Plymouth, Minneapolis, Brooklyn Park, and Rogers. 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) in Maple Grove runs orbital atherectomy devices that treat calcified coronary and peripheral artery disease. Every Maple Grove order ships with CMM inspection, full material traceability, and a first-article report on request.

Cpk ≥ 1.67
On every CTQ
feature
Mandrel OD & die lumen
10–50 pcs
Stent die sets
per campaign
Per stent size, per release
7–10 days
Kanban mandrel
replenishment
From trigger to delivery
ASTM A967
Passivation cert
per lot
316L & 17-4 PH tooling

What Is a CFR 820-Governed Cardiovascular Tooling Supplier?

A validated cardiovascular tooling supplier runs a fundamentally different discipline than a general-purpose CNC shop. Maple Grove is home to Boston Scientific’s WATCHMAN FLX left-atrial appendage closure program and PROMUS / Synergy coronary stent manufacturing — one of the most concentrated cardiovascular device campuses in the United States. The tooling that feeds those programs — nitinol expansion mandrels, stent laser-cutting die sets, PEEK catheter hubs, and 17-4 PH inspection gauges — is not commodity hardware. It is dimensional-control substrate for Class III implantable cardiovascular devices. Boston Scientific demands the same quality infrastructure from tooling suppliers that it does from device component suppliers: ISO 13485:2016, FDA 21 CFR 820 Quality System Regulation, PPAP-equivalent production approval with CTQ capability at Cpk ≥ 1.67, validated process per 21 CFR 820.75 (IQ/OQ/PQ on every machining process), full lot traceability with EN 10204 3.1 material test reports, ASTM A967 passivation certs on 316L and 17-4 PH tooling, and ASTM F2063 compliance certs on nitinol mandrel stock. Add kanban replenishment management for high-wear mandrels (500–1,000 cycle life) and campaign-based die set production, and you have the layered stack RivCut runs for the Maple Grove cardiovascular corridor.

1

Validated Process (IQ/OQ/PQ)

Installation, Operational, and Performance Qualification per 21 CFR 820.75 on every machining process before production tooling release.

2

SPC & Cpk ≥ 1.67 on CTQ

CTQ features flagged on the drawing. Mandrel OD at 36 angular positions. Stent die lumen bore and concentricity. Capability report ships inside every lot doc pack.

3

Full Lot Traceability

Every production lot ships with EN 10204 3.1 MTR, ASTM A967 passivation cert, CMM report, and operator signatures. All indexed to the production drawing revision.

Maple Grove Cardiovascular Tooling Production Families

High-wear and precision tooling that feeds the Boston Scientific WATCHMAN and stent manufacturing corridor — run under validated process, released with full lot documentation.

Boston Scientific’s Maple Grove campus manufactures WATCHMAN FLX left-atrial appendage closure devices and PROMUS / Synergy coronary drug-eluting stents — two of the most dimensionally demanding cardiovascular programs in the world. The nitinol expansion mandrels that shape WATCHMAN frames must hold OD tolerance at every angular position to ensure uniform nitinol Af transformation. The 316L laser-cutting dies that define stent strut geometry must hold lumen bore to ensure consistent laser kerf without stent asymmetry. Every tooling supplier in this corridor is held to the same quality rigor as a device component supplier.

Beyond Boston Scientific, Cardiovascular Systems Inc. (CSI) in Maple Grove runs atherectomy device tooling. SurModics provides surface-modification substrates for cardiovascular devices and needs precision-machined test fixtures. Each of these companies needs a tooling supplier that runs to ISO 13485 — not a general machine shop that produces consistent parts but cannot produce consistent documentation. The documentation rhythm at Boston Scientific cardiovascular programs is as demanding as the dimensional tolerances.

Nitinol Expansion Mandrels — Production Sets

ASTM F2063 nitinol mandrels in production sets for WATCHMAN FLX frame expansion. OD tolerance ±0.0005” at all 36 angular positions, Cpk ≥ 1.67, kanban replenishment at 500–1,000 cycle wear intervals.

Nitinol ASTM F2063

316L Stent Laser-Cutting Die Sets

Production 316L per ASTM F138 die sets in campaigns of 10–50 pieces per stent size. Lumen bore and concentricity held to ±0.0003” with ASTM A967 citric passivation and EN 10204 3.1 MTR per campaign.

316L ASTM F138

PEEK Catheter Hub Production Runs

Implantable PEEK per ASTM F2026 catheter hubs and luer-lock connectors in runs of 100–1,000 pieces. Validated toolpaths for porosity-free surfaces, bore geometry held to ±0.0005”, part-level traceability.

PEEK ASTM F2026

17-4 PH Inspection Gauges & Go/No-Go Sets

17-4 PH H900 per ASTM F899 inspection gauges in matched sets for WATCHMAN mandrel OD and stent lumen qualification. ASTM A967 passivation certs, CMM verification per production lot, Ra ≤ 8 µin on gauge surfaces.

17-4 PH ASTM F899

Nitinol Heat-Setting Fixture Sets

Production fixture sets for WATCHMAN nitinol frame shape-setting in heat-treatment furnaces. 316L or 17-4 PH substrate, ±0.001” geometry tolerance on nitinol contact surfaces, matched-set documentation per campaign.

316L / 17-4 PH

Stent Crimping Mandrel Production Sets

316L and Co-Cr L-605 per ASTM F90 stent crimping mandrels in production sets for coronary stent mounting. OD tolerance held to ±0.0003”, ASTM A967 passivation, campaign-level CMM verification, production traceability docs.

316L / Co-Cr L-605 ASTM F90
316L stent die campaign undergoing CMM lumen bore verification at RivCut
Cpk 1.79 on CTQ Mandrel OD — Production Approved

WATCHMAN Nitinol Mandrel Production — Kanban, 36-Position OD Protocol

Qualified as a validated production family for a Boston Scientific WATCHMAN FLX tooling program. IQ/OQ/PQ completed in 32 days, PPAP-equivalent approved on first submission, Cpk 1.79 on the CTQ mandrel OD at 36 angular positions. Kanban replenishment releasing every 8 weeks at the 500-cycle wear trigger, ASTM F2063 MTR and ASTM A967 passivation cert shipped with every lot. Zero non-conformances opened.

1.79
Cpk on CTQ mandrel
OD at 36 positions
32 days
IQ/OQ/PQ
validation to release
8 weeks
Kanban cycle
per wear trigger
0
Non-conformances
or field returns
  • Boston Scientific PPAP-equivalent submitted and approved
  • IQ/OQ/PQ protocols executed per 21 CFR 820.75
  • Nitinol stock traced to ASTM F2063 compliance cert per lot
  • ASTM A967 citric passivation cert shipped with every release

Validation. Capability. Traceability.

A cardiovascular tooling production family is a regulatory state that has to be maintained lot by lot. Here is the system RivCut runs for Maple Grove programs.

Validated Process — 21 CFR 820.75

IQ/OQ/PQ on every machining process before tooling production release.

  • Installation Qualification on machine & fixture
  • Operational Qualification on toolpath & parameters
  • Performance Qualification across three consecutive lots
  • Change control triggers formal revalidation

Capability — Cpk ≥ 1.67 on CTQ

Medical device tooling statistical bar on every production lot.

  • Mandrel OD measured at 36 angular positions
  • Stent die lumen bore and concentricity CTQs
  • X-bar R SPC on every release lot
  • Capability report inside every lot documentation pack

Full Lot Traceability

Every lot indexed to the production drawing revision.

  • EN 10204 3.1 MTR per lot (all materials)
  • ASTM F2063 compliance cert for nitinol stock
  • ASTM A967 passivation cert for 316L & 17-4 PH tooling
  • CMM report and operator signatures per release

From Validation Plan to Full-Lot Documentation

The five-step path a validated Maple Grove cardiovascular tooling supplier walks with us. No mystery, no guesswork, no audit surprises.

Step 1

Submit the Tooling Design Package

Native model with PMI, drawing with CTQ features flagged, ASTM material callout (F2063, F138, F899, F2026, F90, or F1472), campaign quantity band, and any Boston Scientific or CSI supplier-quality specification.

Step 2

Validation Protocols (IQ/OQ/PQ)

We author and execute IQ, OQ, and PQ protocols per 21 CFR 820.75. PQ demonstrates Cpk ≥ 1.67 on every CTQ across three consecutive validation lots before production release.

Step 3

PPAP-Equivalent Submission

Production approval package assembled per the Boston Scientific or CSI supplier-quality specification — CTQ capability, validation protocols, first-article inspection, ASTM compliance certs, and lot-traceability format.

Step 4

Release Lots with Full Documentation

Every production lot ships with the complete documentation pack — EN 10204 3.1 MTR, SPC chart with CTQ capability, ASTM A967 passivation cert, CMM report, operator signatures, all indexed to the production drawing revision.

Step 5

Kanban Replenishment & Annual Review

Standing kanban blankets trigger automatic mandrel and die set releases at the reorder point. Annual management review covers Cpk trend, non-conformances, CAPAs, and supplier-quality scorecard. Audit-ready every day.

Why Maple Grove, MN Cardiovascular Teams Choose RivCut

Maple Grove is home to Boston Scientific’s WATCHMAN FLX and coronary stent campus, Cardiovascular Systems Inc., and SurModics — a cardiovascular device cluster that holds tooling suppliers to the same quality bar as device component suppliers. RivCut runs ISO 13485-governed validated production from our Union City, CA shop with 3-day LTL transit via I-94 / I-90 to Maple Grove receiving docks, and SFO / OAK to MSP air freight for critical kanban replenishment. All tooling machined in-house under validated process, never brokered.

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

Common Questions About Validated Cardiovascular Tooling Production

Boston Scientific runs its own production approval variant for medical tooling suppliers. The stack is tuned for CFR 820-governed cardiovascular device tooling: CTQ capability at Cpk ≥ 1.67, IQ/OQ/PQ per 21 CFR 820.75, EN 10204 3.1 material test reports, ASTM A967 passivation certs for 316L and 17-4 PH tooling, and ASTM F2063 compliance certs for nitinol mandrel stock. It parallels automotive PPAP structure but is governed by ISO 13485 and FDA 21 CFR 820, not IATF 16949.
Yes. Our cardiovascular tooling production sweet spot covers stent die sets in campaigns of 10–50 pieces per stent size, nitinol mandrel runs of 20–100 pieces under kanban replenishment, and PEEK catheter hub production of 100–1,000 pieces against blanket release agreements. We serve Boston Scientific WATCHMAN FLX and coronary stent programs as well as CSI and SurModics tooling requirements in Maple Grove.
Nitinol expansion mandrels wear after approximately 500–1,000 expansion cycles depending on WATCHMAN frame size and line pressure. We set up kanban blanket agreements that trigger production releases when your on-hand inventory hits the reorder point. Each release lot ships with the EN 10204 3.1 MTR, CMM report on all CTQ OD positions, and ASTM A967 passivation cert. Lead time from trigger to delivery is 7–10 business days on standing blankets.
Yes. CTQ features are flagged on the drawing and 3D model under ISO 13485 design controls. For nitinol mandrels, the CTQ is OD at each of the 36 angular measurement positions. For stent dies, the CTQs are lumen bore diameter and concentricity. Cpk ≥ 1.67 is the baseline for every lot. Ppk on the first article, X-bar R SPC on every production lot, capability report inside the lot documentation pack.
RivCut operates a medical-device QMS aligned to ISO 13485:2016 and FDA 21 CFR 820. Our layered stack covers design controls, document control, CAPA, management review, and validated production per 21 CFR 820.75. We support Boston Scientific and CSI supplier-quality audits and provide the full quality documentation package required for cardiovascular device OEM tooling qualification programs.
820.75 requires that any manufacturing process whose output cannot be fully verified by subsequent inspection must be validated. For CNC machining of cardiovascular tooling, that means IQ on machine and fixture, OQ on toolpath and cutting parameters, and PQ on three consecutive lots at target Cpk. Any change — toolpath, tooling, material lot, operator — triggers revalidation under change control.
Yes. All 316L stainless stent tooling and 17-4 PH inspection gauges and delivery fittings receive ASTM A967 citric-acid passivation after final machining. The passivation certificate ships with every lot, identifying the method (citric acid per ASTM A967 Method C or D as applicable), the material, and the lot number. For nitinol mandrel lots, ASTM F2063 compliance certs for the nitinol stock are also included in the documentation pack.
Cardiovascular tooling sits at the intersection of tight dimensional control, exotic material compliance, and high-cycle wear management. Nitinol mandrels must hold OD tolerance at every angular position to ensure uniform WATCHMAN frame Af transformation. Stent dies must hold lumen geometry to ensure consistent laser-cutting kerf without stent asymmetry. PEEK catheter hubs must be machined with validated parameters to prevent sub-surface porosity in a fluid path. Each material family has its own ASTM compliance trail and wear-life management curve.
Boston Scientific’s Maple Grove campus is the regional anchor, running WATCHMAN FLX and PROMUS / Synergy coronary stent programs. Cardiovascular Systems Inc. (CSI) in Maple Grove runs atherectomy device tooling. SurModics provides surface-modification substrates for cardiovascular devices and needs precision-machined test fixtures and catheter components. Upsher-Smith Laboratories in Maple Grove sources precision-machined components for pharmaceutical delivery systems.
Yes. Nitinol per ASTM F2063 (mandrel stock and heat-setting fixture substrate), 316L per ASTM F138 (stent dies and mandrel shafts), 17-4 PH per ASTM F899 (catheter fittings and inspection gauges), PEEK per ASTM F2026 (catheter hubs and luer connectors), Co-Cr L-605 per ASTM F90 (high-wear stent tooling), and Ti-6Al-4V per ASTM F1472 (catheter handle components) are all core production material lines. Each grade ships with ASTM compliance certs and EN 10204 3.1 MTR.
Any change to a validated process triggers a formal change order referenced to the production drawing revision. Toolpath edits and fixture changes require OQ and PQ revalidation with Cpk retention demonstration. Material lot changes trigger incoming-inspection verification to the applicable ASTM spec. Operator changes require training records. The change-control dossier ships with the next lot so the audit trail is intact for Boston Scientific or CSI supplier-quality review.
Send the native 3D model with PMI, the drawing with CTQ features flagged, the ASTM material spec (F2063, F138, F899, F2026, F90, or F1472), the campaign quantity band, and any Boston Scientific or CSI supplier-quality callout. We respond within 48 hours with unit price, release-agreement terms, validation plan (IQ/OQ/PQ), and the lot documentation format.
Materials

CNC Materials Stocked for Maple Grove Cardiovascular Tooling Production

Nitinol per ASTM F2063. 316L per ASTM F138. 17-4 PH per ASTM F899. PEEK per ASTM F2026. Co-Cr L-605 per ASTM F90. Ti-6Al-4V per ASTM F1472. Each grade ships with ASTM compliance certs and EN 10204 3.1 MTR for Boston Scientific cardiovascular tooling programs.

Core cardiovascular tooling and instrument grades stocked — every lot shipped with ASTM compliance cert and EN 10204 3.1 material test report.
Nitinol & Shape-Memory Alloy
Nitinol (ASTM F2063)WATCHMAN expansion mandrels, heat-setting fixtures, stent crimping tooling
Stainless Steel Tooling Grades
316L Stainless (ASTM F138)Stent laser-cutting dies, mandrel shafts, catheter delivery components
17-4 PH H900 (ASTM F899)Inspection gauges, go/no-go sets, catheter delivery fittings
15-5 PH StainlessHigh-strength catheter handle components, instrument housings
Cobalt-Chromium Alloys
Co-Cr L-605 (ASTM F90)High-wear stent tooling components, mandrel wear surfaces
Titanium Alloys
Ti-6Al-4V (ASTM F1472)Catheter handle structural components, lightweight tooling fixtures
Medical-Grade Polymers
PEEK (ASTM F2026)Catheter hubs, luer-lock connectors, fluid-path components
Medical PC (Polycarbonate)Transparent catheter delivery handle prototypes and production parts
Engineering Metals (Prototype Stand-Ins)
6061-T6 AluminumDevelopment die stand-ins, prototype fixturing, NRE tooling
4140 Pre-Hard SteelProduction fixture bases, machine-room holding fixtures

Don’t see your grade on the drawing callout? Ask us — we machine 40+ cardiovascular tooling alloys and medical-grade polymers.

How We Compare

RivCut vs CNC Marketplaces vs Local Twin Cities Medical Shops

Why Maple Grove cardiovascular tooling teams pick RivCut over marketplace quoting and local-only shops. Marketplaces route your validated tooling process to the lowest bidder with no QMS continuity. Local shops know the programs but often lack nitinol machining depth. RivCut combines instant online quoting with ISO 13485-grade documentation and a real in-house USA validated production line.

What You Get RivCut Best CNC Marketplace Local Twin Cities Shop
Who cuts the partOur machinists in Union City, CAUnknown 3rd party shopLocal machinist, varies by shop
Country of origin100% USA, never outsourcedOften shipped overseasUSA, local only
Cpk ≥ 1.67 on CTQ per lotYes — Mandrel OD + die lumen SPCNo — marketplace SLA caps at 1.33Sometimes, often paid add-on
Validated process (IQ/OQ/PQ)21 CFR 820.75 protocols authoredNot offeredBuyer authors, shop executes
Full lot traceability packDrawing-indexed, every lotCert of Conformance onlyVaries; buyer compiles
ISO 13485 QMSYes, with CAPA and management reviewISO 9001 onlyYes at some, not all
ASTM A967 passivation certs316L & 17-4 PH, every lotOutsourced, cert sometimes missingYes at medical-specialty shops
Nitinol machining capabilityASTM F2063 stock, ±0.0005” ODRarely supportedLimited; few local shops cut nitinol
Instant online quoteYes — AI-priced in secondsYesNo — email or phone
Customer Reviews

What Maple Grove Cardiovascular Engineers Say
About Running Validated Tooling Production With RivCut

Real reviews from real cardiovascular device manufacturing engineers. Every validated lot matters — including yours.

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

Boston Scientific wanted the full PPAP-equivalent package on our WATCHMAN mandrel production family before supplier qualification. RivCut submitted the IQ/OQ/PQ protocols, CTQ capability at Cpk 1.79 on the mandrel OD, and the complete lot-traceability format on the first submission. Zero iterations required.

WATCHMAN Mandrels
KM
Kevin M.
Manufacturing Engineer, Coronary Stent Program
★★★★★

Our 316L stent die sets run in campaigns of 20 pieces. Every campaign ships with the EN 10204 3.1 MTR, ASTM A967 passivation cert, and the CMM report. Lot traceability back to the production file without chasing anyone. That is exactly the documentation rhythm cardiovascular tooling programs need.

316L Stent Die Sets
DL
Diana L.
QA Director, Catheter Delivery Systems
★★★★★

RivCut runs our PEEK catheter hub production in batches of 200. Validated toolpaths, porosity-free surfaces, and part-level traceability. When we changed the hub bore geometry for a design revision, RivCut handled revalidation with a full OQ/PQ protocol and a clean change-control dossier. ISO 13485 audit passed with zero findings.

PEEK Catheter Hubs

How Maple Grove’s Cardiovascular Industry Uses Validated CNC

The Maple Grove corridor is built around cardiovascular device manufacturing. Here is what we see from local tooling teams.

Boston Scientific — WATCHMAN & Coronary Stent Programs

Maple Grove CampusClass III cardiovascular anchor

Boston Scientific’s Maple Grove campus runs WATCHMAN FLX left-atrial appendage closure and PROMUS / Synergy drug-eluting coronary stent programs — two of the most dimensionally demanding cardiovascular programs in the world. The tooling supplier-quality stack mirrors the device supplier stack: ISO 13485, FDA 21 CFR 820, PPAP-equivalent production approval, and full lot traceability on every tooling release.

RivCut supports Boston Scientific’s Maple Grove tooling base with validated CNC production on nitinol expansion mandrels, 316L stent laser-cutting dies, and PEEK catheter hub production sets. IQ/OQ/PQ on every process, Cpk ≥ 1.67 on every CTQ, ASTM F2063 and ASTM A967 certs shipped with every lot.

Boston ScientificWATCHMAN FLXCoronary StentsISO 13485
Insider tip: Boston Scientific cardiovascular programs will reject a tooling supplier PPAP submission if the ASTM F2063 nitinol compliance cert is missing or if the CMM report does not cover all 36 angular OD measurement positions. Submit complete or not at all.

Boston Scientific’s cardiovascular tooling supply chain runs RivCut as a validated CNC supplier under full lot-traceability discipline, not one-off RFQs.

CSI / SurModics — Atherectomy & Surface-Modification Tooling

Maple Grove, MNCardiovascular device cluster

Cardiovascular Systems Inc. (CSI) in Maple Grove runs orbital atherectomy devices that treat calcified coronary and peripheral artery disease. CSI’s tooling requirements include precision-machined catheter components, delivery system fixtures, and test apparatus. SurModics provides surface-modification chemistry for cardiovascular devices and needs precision-machined substrate fixtures and catheter test components that can withstand chemical exposure in validation environments.

RivCut plugs into CSI and SurModics as a qualified upstream tooling supplier with ISO 13485 continuity, validated production, and lot documentation that drops straight into their supplier-quality audit files.

CSI AtherectomySurModicsCatheter Tooling
Insider tip: CSI’s supplier-quality team manages documentation rhythms as tight as their OEM equivalents. Match their lot-documentation format from the first campaign and you will earn a standing blanket with predictable release cadences.

Cardiovascular device companies in Maple Grove run RivCut as a validated upstream CNC tooling shop with drop-in lot documentation packs.

Upsher-Smith Labs — Pharmaceutical Delivery Components

Maple Grove, MNPrecision delivery hardware

Upsher-Smith Laboratories, headquartered in Maple Grove, produces specialty pharmaceutical products including cardiovascular and neurological medications. Their manufacturing processes require precision-machined components for drug delivery systems, test fixtures for dosage qualification, and production tooling for packaging operations. The quality expectations mirror the FDA-regulated environment they operate in.

RivCut provides Upsher-Smith with validated CNC production on PEEK and stainless delivery components, with full lot traceability and ASTM A967 passivation certs on metallic hardware that contacts drug products or patients.

Upsher-Smith LabsPharma DeliveryPEEK & 316L
Insider tip: Pharmaceutical delivery component programs have their own version of the traceability audit. Material lot numbers, machining parameters, and passivation certs all feed into 21 CFR Part 11 electronic record requirements. Get the documentation format right from the first campaign.

Pharmaceutical delivery OEMs in Maple Grove run RivCut for validated CNC production with the FDA-grade documentation trail built in.

Built for Boston Scientific’s Cardiovascular Tooling Production Flow

A validated cardiovascular tooling supplier is not a general-purpose machine shop that produces consistent parts and calls it quality. The Maple Grove corridor — Boston Scientific’s WATCHMAN FLX and coronary stent campus, plus Cardiovascular Systems Inc. and SurModics — runs an entirely different regulatory discipline than aerospace or even general medical device manufacturing. Boston Scientific’s cardiovascular tooling programs demand the same documentation infrastructure from tooling suppliers that they impose on device component suppliers: ISO 13485:2016 plus FDA 21 CFR 820 plus Boston Scientific’s own PPAP-equivalent production approval package. That package covers CTQ capability at Cpk ≥ 1.67 on mandrel OD at all 36 angular positions and stent die lumen bore concentricity, validated process per 21 CFR 820.75 (IQ/OQ/PQ on every machining process whose output cannot be fully verified by inspection), EN 10204 3.1 material test reports per lot for all material grades, ASTM F2063 compliance certs for nitinol mandrel stock, and ASTM A967 citric-acid passivation certs for all 316L and 17-4 PH tooling. Add kanban replenishment management for high-wear nitinol mandrels that wear after 500–1,000 WATCHMAN expansion cycles, campaign-based die set production for PROMUS and Synergy stent sizes, and PEEK catheter hub production runs of 100–1,000 pieces per release — and you have a production flow that requires a validated CNC supplier with real depth in cardiovascular tooling materials and real ISO 13485 infrastructure, not just a quality manual. That is what RivCut runs for the Maple Grove cardiovascular corridor, from our Union City, CA shop with 3-day LTL transit via I-94/I-90 to Maple Grove receiving docks and SFO/OAK to MSP air freight for critical replenishment pulls.

Upload Your Cardiovascular Tooling Production CAD Package

Native model + PMI, drawing with CTQ features flagged, ASTM material callout (F2063, F138, F899, F2026, F90, or F1472), campaign quantity band, and any Boston Scientific or CSI supplier-quality specification. We respond within 48 hours with unit price, validation plan (IQ/OQ/PQ), and lot documentation format.

ISO 13485:2016 · 21 CFR 820.75 validated process · Cpk ≥ 1.67 CTQ · ASTM A967 passivation · Ships to Maple Grove in 3–5 days

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RivCut AI Assistant

Ask about cardiovascular tooling production, materials, pricing

Hi! I’m RivCut’s AI assistant. Ask me anything about cardiovascular tooling production — ISO 13485, CFR 820.75 IQ/OQ/PQ, Boston Scientific PPAP-equivalent, nitinol mandrel kanban replenishment, or stent die campaign production.