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On-demand 3D printed industrial components for energy, oil and gas field operations and maintenance

On-Demand 3D Printing for Energy, Oil & Gas

Durable, production-ready parts for field operations, maintenance, and tooling — helping reduce downtime, extend equipment life, and support fast replacement when it matters most.

Why Energy, Oil & Gas Teams Use Tempus 3D

Energy and oil & gas operations require rugged parts, fast replacement, and predictable quality. Tempus 3D supports maintenance, operations, and engineering teams with production-ready components - quickly and reliably.

Production-Ready Technologies & Materials

  • Engineering-grade polymers built for strength, wear, and repeat use

  • Suitable for housings, brackets, tooling, and replacement components

  • Options including impact-resistant, flexible, and heat-stable materials

Repeatable batch production of 3D printed industrial parts for energy sector operations

Consistent, On-Spec Production

  • Controlled processes ensure repeatability and reliability

  • Proven quality from prototype through repeat production

  • Parts produced to specification with dependable build-to-build consistency

Engineering validation of 3D printed replacement part for oil and gas maintenance applications

Fast Quoting & Flexible Ordering

  • Instant CAD-based pricing with automated printability checks

  • Order one-off replacement parts or repeat production runs

  • Volume-based pricing and partner programs for ongoing demand

Industrial 3D printing workflow supporting fast turnaround for oil and gas MRO teams

In-House Manufacturing & Partner Network

  • Canadian-based, in-house production for faster turnaround

  • Partner network used for specialty materials or processes

  • Single point of accountability from prototype to production

Energy & Oil & Gas Applications

Precision-measured 3D printed replacement component for oil and gas maintenance and repair

Replacement & Maintenance Parts

  • Emergency replacement components to reduce downtime

  • Obsolete or hard-to-source parts

  • Functional equivalents for worn or failed components

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Tooling, Fixtures & Field Aids

  • Custom fixtures for inspection, alignment, and servicing

  • Installation and positioning tools for field crews

  • Improves repeatability and reduces on-site rework

Rugged 3D printed housings for sensors, controls, and electronics in oil and gas environments

Housings & Industrial Components

  • Rugged enclosures for sensors, controls, and electronics

  • Guards, covers, and impact-resistant housings

  • Designed for harsh, outdoor, and industrial environments

Low-volume production confirmation of 3D printed industrial parts for oil and gas equipment

Low-Volume & Bridge Production Parts

  • End-use parts for maintenance programs and upgrades

  • Short runs and variant SKUs without tooling delays

  • Bridge manufacturing 

3D Printing Technologies

Industrial 3D printing technologies suited for harsh environments, tight tolerances, and production-ready performance.

HP Multi Jet Fusion 3D printing for durable oil and gas replacement and production parts

Multi Jet Fusion (MJF)

Best for: Durable end-use parts, repeatable batch production, and tight tolerances. Ideal for tooling, housings, and replacement components where strength and consistency matter.

Build Volume:

380 × 284 × 380 mm

Layer Height:

80–100 microns

Tolerances:

±0.3 mm / ±0.3%

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SLA 3D printing for precision oil and gas tooling and dimension-critical components

Stereolithography (SLA)

Best for: High-detail components, precision fit parts, and tooling masters where surface quality and dimensional accuracy are critical.

Build Volume:

335 × 200 × 300 mm

Layer Height:

25–100 microns

Tolerances:

±0.2 mm / ±0.2%

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Selective Laser Sintering process for mechanically robust oil and gas components

Selective Laser Sintering (SLS)

Best for: Complex geometries and mechanically robust parts requiring strength, impact resistance, and design freedom for demanding operating conditions.

Build Volume:

180 × 130 × 310 mm

Layer Height:

80–100 microns

Tolerances:

±0.3 mm / ±0.3%

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FDM 3D printing for jigs, fixtures, and functional prototypes used in energy operations

Fused Deposition Modeling

Best for: Fixtures, jigs, and functional prototypes where durability, speed, and cost efficiency are required for industrial workflows.

Build Volume:

256 × 256 × 256 mm

Layer Height:

100–300 microns

Tolerances:

±0.5 mm

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HP Multi Jet Fusion Logo - Multi Jet Fusion Production Professional
Proud to be a Certified HP MJF Production Professional

Materials

Industrial-grade polymers suited for harsh environments, mechanical loads, and long-term field performance.

High-strength 3D printed structural component for oil and gas equipment and machinery

Functional Structural Components

Strong, lightweight polymers for load-bearing and mechanically stressed parts.

Designed for rigidity, impact resistance, and extended service life in demanding industrial environments.

Common uses: machine housings, brackets, mounts, guards, replacement components

Flexible and impact-resistant 3D printed component for vibration control in energy equipment

Flexible & Impact-Resistant Components

Tough and elastomeric materials for movement, protection, and vibration control.

Ideal for applications requiring controlled flexibility, shock absorption, or repeated motion without fatigue.

Common uses: gaskets, cable guides, protective covers, damping elements

Precision 3D printed enclosures for oil and gas electronics and control systems

Precision & Enclosure Components

High-detail materials for accurate fit, alignment, and component protection.

Support tight tolerances and clean surface quality for enclosures and dimension-critical parts.

Common uses: enclosures, fixtures, mounts, alignment parts

ESD-safe and application-specific 3D printed components for oil and gas electronics

Application-Specific & ESD-Safe Parts

Materials suited for electrical, environmental, and safety-critical requirements.

Options include ESD-safe, high-temperature, chemical-resistant, and other application-specific materials 

Common uses: ESD housings, sensor mounts, tooling, specialty components

VIEW ALL MATERIALS

Compare properties, applications, and certifications across our entire material portfolio.

Key Benefits

Supporting uptime, maintenance reliability, and production continuity across oil & gas operations.

Precision Fit for Replacement & Spare Parts

  • Exact-fit replacement components for critical equipment

  • Dimensional consistency across repeat orders

  • Supports legacy, obsolete, and hard-to-source parts

Designed for Harsh Operating Environments

  • Materials suitable for high temperatures and thermal cycling

  • Resistant to chemicals, oils, fuels, and industrial solvents

  • Performs in abrasive, outdoor, and industrial settings

Fast Turnaround for Field & Plant Maintenance

  • Rapid response for urgent MRO and breakdown events

  • Eliminates tooling delays for low-volume spares

  • Shortens maintenance windows and unplanned downtime

Reduced Downtime Across Energy Assets

  • Faster replacement of failed or worn components

  • Enables on-demand spares without excess inventory

  • Supports uptime for pumps, valves, enclosures, and tooling

Production-Ready Support for Industrial Operations

  • Low-to-mid volume production of end-use parts

  • Repeatable quality across batches and facilities

  • Predictable lead times for maintenance and operations teams

Flexible Manufacturing Without Tooling Risk

  • Ideal for short runs, design revisions, and field-driven changes

  • Supports bridge manufacturing before casting or machining

  • Reduces cost and risk for low-volume energy components

Ready to Get Started?

Upload your CAD files for an instant quote or speak with our team about your specific requirements.

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