# Phillips Precision, Inc. This MFR.ID profile was supplied, reviewed, and approved by Phillips Precision, Inc.. Originally approved on 10/8/2025; last updated 10/8/2025. Capability data is manufacturer-approved for public sourcing and RFQ use. ## Profile Links - Canonical profile: https://mfr.io/phillips-precision - JSON data: https://mfr.io/phillips-precision.json ## Company Overview Phillips Precision, Inc. is an ISO 9001:2015-registered full-service CNC machining and assembly facility specializing in rapid prototyping, short-run production, and scalable manufacturing. The Boylston, MA manufacturing laboratory combines DFM expertise with precision milling, turning, surface grinding, 3D printing, and laser marking to deliver high-accuracy parts. Serving engineers across medical, aerospace, and industrial markets, Phillips accelerates speed-to-market with turnkey fixture design and production-ready solutions. ## Quick Reference - Processes: CNC Milling, CNC Turning, Assembly & Integration Services, Engineering & Design Services, Inspection & Quality Control, Polishing / Grinding - Lead Time: 4-6 weeks - Production Scale: Prototype (1-10 pieces), Short Run (10-500 pieces), Medium Run (500-5000 pieces), Mass Production (5000+ pieces), Short Run (10-100 pieces), Medium Run (100-1000 pieces), Mass Production (1000+ pieces), Prototype (1-10 parts), Short Run (10-500 parts), Medium Run (500-5000 parts), Mass Production (5000+ parts) - Location: Boylston, MA 01505 - Employees: 11-50 - Revenue: $1M-$4.9M - Founded: 1997 - Contact: quotes@phillips-precision.com - +1 508-869-3344 - Verified: Manufacturer Approved ## Capabilities ### 3- to 5-Axis CNC Milling Multi-axis vertical and horizontal CNC milling for prototypes and production. Focus on tight-tolerance work with single-setup strategies, palletized HMCs, 5-axis trunnion milling, and CAM simulation for toolpath verification; fixtures and cycle time improvements are achieved via fixturing strategy and process control (no automated SPC data capture). - Process: CNC Milling - Highlights: 3–5-axis milling with palletized horizontals, 5-axis trunnion for single-setup multi-face features, CAM simulation/verification, probing for setups, and quick-change fixturing - Subprocesses: Simultaneous 5-Axis Machining, 4th-Axis Milling, Horizontal CNC Milling, High-Speed 3-D Profiling & Surfacing, Automated Pallet Machining, In-Process Probing, Drilling, Tapping - Specifications: - Automation & In Process Control: Pallet pools for HMCs, Robotic tending on 5-axis VMC, In-process probing (work/tool), Adaptive control/tool life monitoring - Supports lights-out milling and consistent quality. - Max Travel — Y: 26 in - Extended Y-axis for wider fixtures and tombstones. - Surface Finish — As Machined: {"max":63,"min":16,"unit":"µin Ra"} - Finish varies by material and tooling; finer via finish passes or secondary processes. - Typical Dimensional Tolerance: 0.001 in - Default shop tolerance; tighter per drawing when required. - Minimum Wall Thickness (Metal): 0.015 in - Thin walls supported with balanced step-downs and secure fixturing. - Equipment (Representative): Haas UMC-500 (5-axis VMC, robotic tending), Haas EC-400 (HMC, 6+1 pallet pool), Kiwa KMH-500A (HMC, 4th-axis indexer), Haas VF-3YT (extended Y travel), Haas VF-2 + 4th-axis rotary, Quasar MV-184 (VMC), Haas Mini Mill (compact VMC) - Representative platforms aligned to stated travels and automation. - Max Travel — X: 40 in - Supports large plates, multi-part fixtures, and long enclosures. - Horizontal Pallet Capacity: 6+1 pallet pool - Queued jobs enable lights-out machining and fast changeovers. - Workholding & Fixturing: Modular vises and dovetail fixtures, Tombstones and 4th-axis rotaries, Quick-change pallets, Custom soft jaws and locators - Repeatable datums improve Cpk and reduce cycle time. - Machining Axes (Milling): 3-axis VMC, 4-axis HMC (palletized), 5-axis VMC (trunnion) - Broad axis coverage reduces setups and improves positional accuracy on complex parts. - Critical Feature Tolerance (Capability): 0.0002 in - Achieved with in-process probing and controlled finishing passes. - Max Travel — Z: 25 in - Tall Z-clearance for deep cavities and 5-axis part tilts. - Production Scale: Prototype (1-10 pieces), Short Run (10-500 pieces), Medium Run (500-5000 pieces), Mass Production (5000+ pieces) - Scales from one-offs to multi-thousand-piece programs. - Hole Size Range (Drilling/Reaming): {"max":2,"min":0.02,"unit":"in"} - Micro-drilling through large bores; precision IDs via boring/reaming (tooling-dependent). - Threading & Tapping (Milling): UN/UNF, Metric ISO, Pipe (NPT/NPTF), Rigid tapping, Thread milling - Produced to class fit; gauge verification on request. - Software — CAD/CAM & Data: Mastercam (programming), SolidWorks / Onshape (native CAD), STEP, IGES, Parasolid (neutral), DXF/DWG (2D) - Direct model-based programming with verification and revision control. - Materials Supported (Typical): Aluminum (6061-T6, 7075-T6), Carbon/Alloy Steels (1018, 4140), Stainless (300/400, 17-4 PH), Tool Steels (A2, D2, O1, H13), Titanium (Grade 5), Nickel Alloys, Copper Alloys (Brass/Bronze), Engineering Plastics (Acetal, Nylon, PC, ABS, PEEK) - Material certs available; DFARS/RoHS/REACH sourcing on request. - Inspection & QA: Zeiss CMM for FAIs/critical features, Vision measurement and comparator, Surface roughness & hardness checks, Inspection reports and material/finish certs - ISO 9001:2015 QMS; GD&T compliance per drawing. - Lead Times — CNC Milling: 4-6 weeks - Typical for production; prototypes/expedites available based on scope and queue. ### Precision CNC Turning High-precision CNC turning for cylindrical components using bar-feed and chucking lathes with live tooling and Y-axis for mill-turn features. One-and-done strategies improve concentricity and reduce tolerance stack-up; bar feeders enable lights-out throughput for small to medium diameters. - Process: CNC Turning - Highlights: Live-tool/Y-axis mill-turn for complex features, Bar-feed automation for volume pins, bushings, and fittings, Tight diameter control with optional post-hone/grind - Subprocesses: CNC Mill-Turn Machining, Bar-Fed CNC Turning, Hard Turning, Thread Cutting, Boring, Cutoff (Parting), Knurling - Specifications: - Chuck Size Range: 8 in, 10 in, 12 in - Multiple chuck sizes match part OD for rigidity and throughput. - Surface Finish — As Turned: {"max":63,"min":16,"unit":"µin Ra"} - Finish depends on insert, SFM/IC, and material; finer with finishing inserts. - Software — CAD/CAM & Data: Mastercam (lathe & mill-turn), SolidWorks / Onshape (native CAD), STEP, IGES, Parasolid (neutral), DXF/DWG (2D) - Model-based programming and revision control for fast changeovers. - Typical Diameter Tolerance: 0.001 in - Standard control on OD/ID features unless tighter is specified. - Automation & In Process Control: Bar feeders and part catcher, In-process probing (turn-mill), Tool-life/adaptive control, SPC sampling on critical diameters - Supports lights-out turning with consistent quality at volume. - Critical Diameter/Concentricity (Capability): 0.0002 in - Achieved via stable tooling, probing, and optional post-hone/grind. - Equipment (Representative): Doosan Lynx 220 (8"/10" chuck; bar-feeder on 8" model), Doosan Puma 2600 Y (12" chuck, live tool, Y-axis mill-turn), Haas ST-30Y (10" chuck, live tool, Y-axis), ProtoTRAK toolroom lathe (8" chuck), Hardinge toolroom lathe - Representative platforms aligned to stated capacities and bar-feed limits. - Materials Supported (Typical): Aluminum (6061-T6, 7075-T6), Carbon/Alloy Steels (1018, 4140), Stainless (300/400, 17-4 PH), Tool Steels, Titanium (Grade 5), Nickel Alloys, Copper Alloys (Brass/Bronze), Engineering Plastics (Acetal, Nylon, PC, ABS, PEEK) - Material certs available; DFARS/RoHS/REACH sourcing on request. - Inspection & QA: Zeiss CMM for concentricity and true position, Vision measurement and comparator, Surface roughness & hardness checks, Inspection reports and material/finish certs - ISO 9001:2015 QMS; GR&R-driven checks on tight diameters. - Part Families & Features: Shafts, pins, and rollers, Bushings and spacers, Threaded adapters and fittings, Mill-turn flats, cross-holes, keyways - Complete in one setup where possible to maintain coaxiality. - Max Swing Over Carriage: 24.8 in - Operational clearance for tooling and carriage travel. - Bar Feed Capacity: 1.75 in - Lights-out bar work for pins, spacers, and fittings up to ~1.75 in OD. - Max Swing Over Bed: 30 in - Large rings and flanges accommodated; over carriage ~24.8 in. - Turning Centers & Features: Live-tool/Y-axis mill-turn, Bar feeders and part catcher - One-and-done strategies improve concentricity and reduce re-fixturing. - Production Scale: Prototype (1-10 pieces), Short Run (10-500 pieces), Medium Run (500-5000 pieces), Mass Production (5000+ pieces) - From single replacements to multi-thousand-piece runs; bar-feed boosts throughput. - Max Through Spindle Bore: 3 in - Supports larger bar/billet on select mill-turn platforms. - Max Turning Length (Between Centers): 50 in - Long shafts and rods supported on manual/CNC toolroom setups. - Threading Support: UN / UNF (internal & external), Metric ISO (internal & external), Pipe Threads (NPT/NPTF), Rigid tapping and thread milling - Gauged to class (2A/2B, 3A/3B) as specified. - Lead Times — CNC Turning: 4-6 weeks - Typical for production; prototypes/expedites available based on scope and queue. ### Assembly & Turnkey Production Mechanical sub-assembly only: component manufacture/procurement, build per revision-controlled work instructions, basic functional checks, identification, and pack-out. - Process: Assembly & Integration Services - Highlights: Mechanical assembly cells with torque-verified fasteners, Kitting/pack-out with serialized traceability, Dimensional verification of critical interfaces, Lean cells and Kanban stocking for repeat builds - Subprocesses: Mechanical Assembly, Dimensional Inspection, Alphanumeric Marking, Packaging / Kitting - Specifications: - Production Scale: Prototype (1-10 pieces), Short Run (10-100 pieces), Medium Run (100-1000 pieces), Mass Production (1000+ pieces) - Supports pilot builds and repeat production; Kanban stocking available for recurring assemblies. - Welding Integration (Assembly): MIG (GMAW), TIG (GTAW) - Structural brackets/frames or light fab completed in-house; post-weld finishing coordinated as required. - Documentation & Work Instructions: Revision-controlled BOMs and routings, Visual work instructions with torque specs, Change control with recorded ECOs/ECNs, Device/serial mapping to build records - Clear, auditable build documentation ensures repeatability. - Compliance & Standards: ISO 9001:2015 QMS, RoHS/REACH material compliance (on request), DFARS sourcing (on request), NADCAP partners for special processes - Quality and sourcing controls align to customer/industry requirements; certs included as needed. - Traceability & Identification: Lot/heat tracking for materials, Serial number assignment per unit, Fiber-laser part and panel marking, Build traveler with sign-offs - End-to-end traceability from material receipt to final pack-out. - Lead Times — Sub Assemblies: 2-4 weeks - Assumes released BOM, available materials, and standard packaging. - Procurement & Supply Chain: Approved vendors for fasteners, bearings, motion components, PO/release management via ERP with lot/heat traceability, NADCAP special-process coordination (heat treat, coatings) via certified partners, Compliance sourcing (DFARS, RoHS, REACH) on request - Phillips manages the BOM: purchasing, receiving inspection, cert collection, and inventory staging. - Lead Times — Complete Machine Builds: 6-12 weeks - Varies with BOM breadth, long-lead components, qualification testing, and documentation scope. - Testing & Quality: Basic functional checks (mechanical actuation/fit), CMM/vision verification of critical interfaces, FAI documentation on request - ISO 9001:2015 quality system; test results and inspection reports can be delivered with each lot. - Assembly Scope: Mechanical sub-assemblies and full builds, Hardware kitting and line-side presentation, Labeling/ID and documentation pack-out - End-to-end build from component manufacture to packaged shipment with single-source accountability. - Materials & Components (Assembly): Machined aluminum/steel components, Commercial hardware (stainless, zinc-plated), Bearings, shafts, belts, and pulleys, Motors, drives, switches, and sensors, Pneumatic fittings (as specified), Nameplates, decals, and cable IDs - All received components logged and, when required, accompanied by vendor certifications. - Packaging, Kitting & Logistics: Custom crates and foam dunnage, VCI wraps and desiccants for corrosion control, Bag-and-tag kits with itemized contents, Serialized labels, barcodes/QR, and COCs in package, Drop-ship to single or multiple destinations - Ship-ready presentation reduces receiving time; documentation packet included with each shipment. - Fasteners & Adhesives: UNC/UNF and ISO metric classes, Torque-controlled fastener installation, Threadlockers (removable/permanent) and retaining compounds, Press-fit/bearing fits and keyed assemblies - Hardware installed to specified class/torque; adhesive use documented on work instructions. - Software & Data: JobBOSS² ERP (BOMs, POs, routings, travelers), SolidWorks / Onshape (assembly models & drawings), PDF/DWG work instructions and checklists, CSV/Excel BOM exchange - Digital thread from CAD to ERP ensures the right parts, rev, and instructions are built every time. ### Engineering, Prototyping & DFM Design-for-manufacturing (DFM) and prototype development focused on production readiness and risk reduction; no quick-turn offers. - Process: Engineering & Design Services - Highlights: Model-based DFM & GD&T reviews with practical, cost-focused recommendations, Prototype builds aligned to production processes, CAM programming with controlled, documented iterations - Subprocesses: Prototype Development (Concept-to-Function), DFM Analysis, Reverse Engineering – Dimensional Capture, CAM Programming & Error Compensation, Rapid Prototyping (Additive) - Specifications: - Security & IP: Mutual NDA supported, Secure file transfer upon request, Controlled access to CAD and travelers - Protects customer IP through controlled data handling. - CAM & Programming: Mastercam for milling/turning, Model-based toolpaths with simulation, In-process probing for work/tool offsets - Programs retained for fast re-run and production transition. - Reverse Engineering: CMM/vision measurement for critical geometry, 2D drawings with GD&T and material callouts, 3D CAD models for downstream manufacturing, Verification against sample before release - Builds a clean digital definition from physical parts. - Prototype Assembly & Test: Mechanical assembly and torque-controlled fastening, Basic electrical wiring/soldering (low-voltage devices), Functional checks (motion, fit as applicable), Inspection reports for key interfaces - Ensures prototypes evaluate real-world interactions. - Prototype Tolerances — FDM: 0.01 in - Typical dimensional accuracy for ABS prints. - Materials For Prototyping: ABS (FDM), Aluminum (6061-T6, 7075-T6), Carbon/Alloy Steels (1018, 4140), Stainless (300/400, 17-4 PH), Tool Steels, Copper Alloys (Brass/Bronze), Engineering Plastics (Acetal/Delrin, Nylon, PC, PEEK) - Material selection guided by function, cost, and lead time. - CNC Prototype Envelope — Milling: X travel: 40 in, Y travel: 26 in, Z travel: 25 in - Prototype plates/enclosures and multi-part arrays supported on palletized setups. - Deliverables: 3D CAD files and 2D drawings (PDF/DWG) with GD&T, BOM and revision-controlled documentation, Inspection report (as requested), DFM recommendations and change log - Clear handoff supports production transition. - 3D Printing — Build Volume (Z): 6 in - Taller parts possible by bonding accurately keyed sections. - 3D Printing — Build Volume (X): 8 in - Single-piece FDM envelope; larger concepts achieved via sectioning and bonded joints. - 3D Printing — Build Volume (Y): 6 in - Orientation balances strength, finish, and support removal. - Engagement Scope: Design-for-manufacturing (DFM) reviews with cost/lead-time guidance, Reverse engineering from samples or partial drawings, Hybrid prototype builds (FDM ABS + CNC machining), Assembly of prototypes and basic functional checks, Iteration support with controlled design changes - Focused on manufacturability and de-risking production. - 3D Printing — Layer Thickness: {"max":0.013,"min":0.01,"unit":"in"} - Balances detail and speed; finer features may be post-machined. - Prototype Tolerances — CNC: 0.001 in - Tighter (to 0.0002 in) on critical dimensions as needed. - Packaging & Shipping: Protective wrapping and foam dunnage, VCI/desiccants for metal prototypes, Bag-and-tag small kits with labels, Tracked parcel or custom crate for larger assemblies - Preserves prototype condition and accelerates receiving. - 3D Printing — Minimum Feature Size: {"max":0.04,"min":0.02,"unit":"in"} - Small holes/slots may be pilot-printed and final-sized by CNC. - Lead Times — Prototypes: 4-6 weeks - Schedule driven by complexity, materials, and inspection/reporting scope. - Production Scale: Prototype (1-10 pieces), Short Run (10-100 pieces), Medium Run (100-1000 pieces), Mass Production (1000+ pieces) - Covers one-offs through pilot lots. - Surface Finish Targets: As-printed: ~250–500 µin Ra (visible layering), As-machined: ~16–63 µin Ra, Finer via light finish passes or secondary processes - Finish strategy chosen per functional/cosmetic need. - Inputs — CAD & Data: SolidWorks / Onshape (native), STEP, IGES, Parasolid (neutral), DXF/DWG (2D), PDF drawings with GD&T, Photos/samples for reverse engineering - Model-based workflows minimize translation errors. ### Inspection & Quality Assurance ISO-registered metrology services covering incoming, in-process, and final inspection. Capabilities include bridge CMM measurement, vision/optical inspection, surface roughness and hardness testing, model-based inspection, and traceable reporting (FAI/PPAP). Controlled environments, calibrated instruments, and standardized documentation deliver reliable, audit-ready results. - Process: Inspection & Quality Control - Highlights: Bridge CMM + vision/optical inspection with GD&T verification, AS9102 First Article reports with ballooned prints or MBD, ISO 9001:2015 QMS, calibrated equipment, and digital traceability - Subprocesses: Dimensional Inspection, 3D Coordinate Measurement, Surface Roughness Measurement, First Article Inspection (AS9102), Inspection Reporting - Specifications: - Height Gages — Column Sizes: 9 in, 16 in, 28 in - Electronic height gages on granite for quick vertical measurements. - CMM — Measuring Volume (X): 27.6 in - Bridge CMM envelope (approx.) for single-setup part layouts. - GD&T Controls Verified: True position, profile (line/surface), Flatness, parallelism, perpendicularity, Concentricity, cylindricity, runout, Angular/linear dimensions with bonus where applicable - Programs reference ASME Y14.5; MBD/PMI consumption when provided. - Surface Roughness — Measurable Range (Ra): {"max":500,"min":8,"unit":"µin Ra"} - Portable stylus profilometer for Ra/Rz checks on critical surfaces. - Hardness Testing: Rockwell HRC, Rockwell HRB - Bench hardness tester verifies post-process properties and heat-treat results. - Lead Times — FAI/FAIR: 3-7 days - Assumes released drawing/MBD and defined characteristic list; complex parts may require additional time. - CMM — Measuring Volume (Y): 27.6 in - Supports medium-format fixtures and multi-part nests. - Vision System — Stage Travel (X): 12 in - Programmable 2D/3D vision measurement for small-to-medium parts. - Serialization & Labeling: Part/lot serialization tied to reports, Barcode/QR on packets and labels, Certificate of Conformance (COC) included as requested - Ensures tight linkage between physical parts and digital records. - Inspection Scope: Incoming (material and component verification), In-process (first-piece and periodic checks), Final (lot acceptance and documentation pack) - Scope configured per drawing/control plan; critical features can be 100% verified. - CMM System Accuracy (Uncertainty): {"max":0.0002,"min":0.0001,"unit":"in"} - Typical volumetric performance under controlled conditions; feature-dependent. - Reporting Standards & Formats: AS9102 FAIR (Forms 1–3), PDF Dimensional Report, CSV Data Export, QIF Dataset, Ballooned Drawing or MBD Snapshot - Digital packages include instrument IDs, calibration status, and environmental conditions. - Production Scale: Prototype (1-10 parts), Short Run (10-500 parts), Medium Run (500-5000 parts), Mass Production (5000+ parts) - Scales from one-offs and FAIs to large-lot acceptance with SPC reporting. - Vision System — Stage Travel (Y): 8 in - Ideal for quick layouts, pattern checks, and small hole arrays. - Lead Times — Production Lot Inspection: 1-3 days - Typical for small/medium lots; same-day expedites considered based on queue and scope. - Environmental Conditions: 68 °F (20 °C) measurement rooms, Stabilization before final measurement, Clean, vibration-isolated stations - Environmental control reduces thermal/settling error for high-precision measurements. - Calibration & Traceability: NIST/ISO 17025 traceable calibrations, Instrument recall and sticker control, Uncertainty statements available on request - Certificates retained; equipment within calibration at time of measurement. - Sampling & Acceptance: 100% inspection on critical characteristics (as specified), AQL sampling (C=0) or per customer control plan, SPC with Cp/Cpk for key features - Plan defined at contract review; tightened inspection available for launch lots. - Optical Comparator — Screen Size: 14 in - Profile inspection and angle/radius verification with digital readout. - CMM — Measuring Volume (Z): 23.6 in - Adequate clearance for tall features and stack-ups. ### Secondary Operations & Value-Added Services Post-machining services to deliver production-ready parts and sub-assemblies: surface grinding, polishing, laser marking/serialization, deburring, tumbling, parts wash/pack, light welding, and kitting. These operations tighten critical fits, improve surface integrity, and add identification/traceability so components arrive line-ready. - Process: Polishing / Grinding - Highlights: Surface grinding (up to 16 × 32 in), laser marking/serialization, deburr/tumble, parts wash/pack, and kitting, Quick-swap modular fixtures for throughput and consistent presentation, Documentation and traceability with serialized IDs and COCs - Subprocesses: Surface Grinding, Laser Engraving, 2D UDI/UID Barcoding, Deburring, Parts Cleaning, Packaging / Kitting - Specifications: - Surface Grinding — Table Envelope (X): 32 in - Max table travel for flat work; supports large plates, tooling, and fixture faces. - Laser Marking — Code & Font Support: Text (TrueType), logos (DXF/AI/EPS), 1D (Code 39/128), 2D (Data Matrix/QR), Serialization with auto-increment - Readability verified; marking programs revision-controlled and tied to job records. - Parts Washing & Cleanliness: Aqueous parts washer (detergent-based), Solvent-free cleaning and air-dry, Rust inhibitor/VCI packaging as needed - Cleanliness tailored to assembly or finish requirements; packaging protects surfaces in transit. - Deburr & Surface Prep: Hand deburr and edge break, Vibratory tumbling for small parts - Removes burrs and sharp edges; provides uniform matte finishes where desired. - Production Scale: Prototype (1-10 pieces), Short Run (10-500 pieces), Medium Run (500-5000 pieces), Mass Production (5000+ pieces) - Throughput supported by modular fixtures and lights-out marking. - Post Process Inspection: CMM/vision spot-checks of critical features, Surface roughness verification (Ra), Hardness check after heat treat (as applicable), Marking readability scan (barcodes/QR) - Inspection results appended to job traveler; reports available upon request. - Surface Finish — As Ground (Ra): {"max":16,"min":8,"unit":"µin Ra"} - Finish depends on wheel, material, and parameters; finer achievable with spark-out/finish passes. - Laser Marking — Work Area: Fiber: lens-dependent field (e.g., ~4 × 4 in). CO₂: bed-style platform (e.g., ~24 × 12 in). - Exact lens/bed setup selected per job to optimize throughput and contrast. - Lead Times — Outsourced Finishes (Grinding/Honing/Blasting): 3-7 days - Performed via partners as needed; certs returned on request. - Surface Grinding — Table Envelope (Y): 16 in - Typical magnetic-chuck work area for precision flatness and finish. - Lead Times — Laser Marking: 1-3 days - Depends on artwork/data setup and lot size; same-day possible for small batches. - Laser Marking — Systems: 20 W fiber laser (galvo) for metals (anneal/etch/engrave), 30 W CO₂ bed laser for coated metals/plastics/panels - Supports serials, text, barcodes/QR/Data Matrix, and logos on metals and many plastics. - Lead Times — Wash/Pack & Kitting: 1-2 days - Assumes parts received from machining and any coatings; includes labeling and documentation pack. - Finishes & Coatings (Outsourced): Anodize (type II/III), chem-film, Electroplating (nickel, zinc, etc.), Powder coat/paint, Heat treat (Q&T, nitriding, carburize), Electropolish, passivation, Abrasive blasting (as required by finish spec) - Performed via certified partners; certs returned with shipment when specified. - Process Scope: Surface grinding to final size/finish, Laser marking/serialization (fiber & CO₂), Deburr and vibratory tumbling, Aqueous parts washing, rust inhibition, pack-out, Light assembly and MIG/TIG welding (as specified) - Finishing/ID services to deliver line-ready components with documentation and traceability. - Packaging & Identification: VCI wraps/desiccants and foam dunnage, Bag-and-tag kits with itemized labels, Serialized laser IDs on parts or plates, COC and inspection report pack-out - Protects finishes and speeds receiving; documentation links serials to measurement data. - Welding (Light Fab): MIG (carbon/stainless steels), TIG (aluminum/stainless steels) - For brackets/frames and small fabrications; post-weld finishing coordinated as required. - Materials Supported (Typical): Aluminum alloys (6061, 7075), Carbon & alloy steels (1018, 4140), Stainless (300/400, 17-4 PH), Tool steels, Titanium (Grade 5), Nickel alloys, Copper alloys (brass/bronze), Engineering plastics (Acetal, Nylon, PC, ABS, PEEK) - Confirm material temper/coating for optimal wheel/stone selection and marking contrast. ## Certifications - ISO 9001:2015 (Type: Certification; Authority: International Organization for Standardization (ISO); Status: Active; Scope: Quality management system for full-service CNC machining and assembly (company-level QMS).; URL: https://www.iso.org/iso-9001-quality-management.html) - RoHS 3 Compliance (Type: Compliance; Authority: European Commission; Status: Active; Scope: Declaration of Restriction of Hazardous Substances (RoHS) compliance for products / EU market.; URL: https://ec.europa.eu/environment/topics/waste-and-recycling/rohs-directive_en) - REACH Compliance (Type: Compliance; Authority: European Chemicals Agency (ECHA); Status: Active; Scope: Declaration of REACH compliance for products / EU market.; URL: https://environment.ec.europa.eu/topics/chemicals/reach-regulation_en) - Precision Machined Products Association (PMPA) Membership (Type: Membership; Authority: Precision Machined Products Association (PMPA); Status: Active; Scope: Trade-association membership in PMPA.; URL: https://www.pmpa.org) ## Industries Served - General Manufacturing: Phillips Precision, Inc. provides precision machining, fabrication and assembly of custom components and inspection fixtures used in general manufacturing applications where short-run production, rapid prototyping and tight-tolerance parts are required. - Industrial Robotics & Automation Systems: Phillips Precision, Inc. designs and manufactures precision fixtures, tooling and automated fixturing solutions, and integrates them into robotic and automation cells to speed inspection, part changeover, and high-throughput production. - Automotive & Transportation: Phillips Precision, Inc. produces machined and assembled precision components, prototypes, and tooling for automotive & transportation applications, supplying tight-tolerance parts, fixtures and assemblies used in vehicle subcomponents, test rigs and low-volume production runs. - Aerospace & Defense: Phillips Precision, Inc. performs ISO-registered precision machining and assembly of high-tolerance parts, inspection fixtures and custom tooling employed in aerospace & defense applications where traceable inspection, strict quality control and tight dimensional tolerances are required. - Electronics & Semiconductors: Phillips Precision, Inc. machines and assembles precision mechanical components, housings and fixtures for electronics & semiconductors customers, and supplies inspection fixturing and marking services to support clean, accurate component production and traceability. - Medical Devices & Healthcare Equipment: Phillips Precision, Inc. delivers ISO-registered precision machining, inspection and assembly of medical-grade components, fixtures and prototypes—providing traceable inspection reports and tight tolerances for medical devices and healthcare equipment development and low-volume production. - Packaging, Printing & Labeling: Phillips Precision, Inc. supplies precision-machined parts, custom fixtures and contract inspection services for packaging, printing & labeling machinery—helping OEMs and integrators validate parts, improve throughput and shorten prototyping cycles. ## Facilities ### Phillips Precision, Inc. Machine Shop 9,000-sq-ft ISO 9001:2015 machine shop in Boylston, MA. The site supports precision milling, turning, grinding/honing, 3D printing, laser marking, and turnkey fixture design/assembly with a quality-focused, prototype-to-production workflow and documented traceability. - Type: manufacturing_facility - Headquarters: Yes - Website: https://phillips-precision.com/machine-shop-facility/ - Email: quotes@phillips-precision.com - Phone: +1 508-869-3344 - Address: 141 Shrewsbury Street, PO Box 1094, Boylston, MA 01505, United States ## Verification Status - Business Entity: Verified 9/16/2025 - Technical Capabilities: Verified 10/8/2025 - Locations & Facilities: Verified 9/16/2025 - Reviews & Ratings: Not yet verified - MFR.ID Created: 9/16/2025 - Last Updated: 10/8/2025