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Composite Design Engineer Jobs in Colorado (NOW HIRING)

Senior Blade Structure Engineer

Boulder, CO ยท On-site

$115K - $150K/yr

Engineers from industry-leading OEMs, national laboratories, and top graduate programs have ... Composite Structural Design & Technology Development โ€ข Lead development of composite design ...

... Engineer to take end-to-end ownership of spacecraft hardware -- not just its design, but its ... Composite structures and repair * Reentry, thermal, or fatigue-driven structural environments * SMC ...

Senior Composite Technician

Loveland, CO ยท On-site

$74K - $90K/yr

Interpret complex engineering drawings, CAD models, and manufacturing plans with minimal oversight ... Build, maintain, and improve composite tooling, including molds, mandrels, and fixtures * Provide ...

Senior Composite Technician

Loveland, CO ยท On-site

$74K - $90K/yr

Interpret complex engineering drawings, CAD models, and manufacturing plans with minimal oversight ... Build, maintain, and improve composite tooling, including molds, mandrels, and fixtures * Provide ...

New

Senior Structural Design Engineer

Denver, CO

$103K - $140K/yr

The team fosters innovation and drives engineering workflows of the future, shared solutions and ... Design, analyze, develop, and test primary and secondary metallic and composite structures

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Showing results 1-20

Composite Design Engineer information

See Colorado salary details

$68.3K

$108.9K

$140.9K

How much do composite design engineer jobs pay per year?

As of Jul 3, 2026, the average yearly pay for composite design engineer in Colorado is $108,933.00, according to ZipRecruiter salary data. Most workers in this role earn between $94,600.00 and $125,100.00 per year, depending on experience, location, and employer.

What is a Composite Design Engineer job?

A Composite Design Engineer is responsible for designing, analyzing, and optimizing composite materials and structures used in aerospace, automotive, marine, and other industries. They work with advanced materials like carbon fiber and fiberglass to develop lightweight, high-strength components. Their role includes selecting materials, creating CAD models, performing structural analyses, and collaborating with manufacturing teams. They ensure that composite structures meet performance, safety, and cost requirements while complying with industry standards.

What are the key skills and qualifications needed to thrive in the Composite Design Engineer position, and why are they important?

To thrive as a Composite Design Engineer, you need expertise in composite materials, structural analysis, and CAD modeling, typically backed by an engineering degree in aerospace, mechanical, or materials engineering. Proficiency with design software like CATIA, SolidWorks, or ANSYS, and familiarity with industry standards such as ISO or ASME, is crucial, and certifications in composite design are often beneficial. Strong project management, communication, and collaborative problem-solving abilities distinguish top performers in this role. These competencies ensure innovative, manufacturable designs that meet high-performance standards and integrate effectively into multidisciplinary teams.

What are the typical daily responsibilities of a Composite Design Engineer?

As a Composite Design Engineer, your daily tasks typically involve creating detailed 3D models and engineering drawings, performing material and structural analyses, and collaborating with manufacturing teams to ensure designs are feasible and cost-effective. You may participate in meetings with project managers, suppliers, and cross-functional engineering teams to discuss design requirements, product testing, and implementation timelines. Additionally, reviewing and refining current designs for performance improvements and addressing any issues that arise during prototyping or production are common parts of the role. This hands-on, collaborative approach offers a dynamic work environment, blending technical analysis with practical problem-solving.

What are popular job titles related to Composite Design Engineer jobs in Colorado? For Composite Design Engineer jobs in Colorado, the most frequently searched job titles are:
What job categories do people searching Composite Design Engineer jobs in Colorado look for? The top searched job categories for Composite Design Engineer jobs in Colorado are:

Senior Blade Structure Engineer

Envision Energy

Boulder, CO โ€ข On-site

$115K - $150K/yr

Other

Posted 8 days ago


Job description

Job Openings >> Senior Blade Structure Engineer
Senior Blade Structure Engineer
Summary
Title: Senior Blade Structure Engineer ID: 1050 Location: Boulder, CO Salary Range: $115,000.00 - $150,000.00
More about this job >
Description
Senior Blade Structure Engineer | Global Blade Innovation Centerย 
About the Global Blade Innovation Center
Envision Energy's Global Blade Innovation Center (GBIC) was established in 2015 to build a world-class,
in-house blade design capability. Engineers from industry-leading OEMs, national
laboratories, and top graduate programs have collaborated to create a state-of-the-art design
capability from the ground up. Envision's in-house blade designs and technologies have disrupted
global markets and delivered significant reductions in Levelized Cost of Energy (LCOE) alongside
measurable expansion of Envision's market share.
The Role
As a Senior Blade Structure Engineer, you will operate across the full span of composite blade
engineering: from hands-on field failure investigation through to the development of next-generation
design technologies and product-level solutions. You will own the most technically complex
challenges the business unit faces, with a mandate not only to diagnose and close field problems,
but to translate that physical understanding into better designs, improved materials application, and
new engineering capabilities that advance the product. You will serve as a key technical voice on
the team's hardest problems and bring the cross-functional influence to drive solutions across
design, production, and operations.
To be successful in this role you will be expected to bring the judgment to frame the right problem,
the physical intuition built through hands-on field investigation, and the cross-functional influence
required to turn technical insight into business action.
Key Responsibilities:
Composite Structural Design & Technology Development

Lead development of composite design technologies and methodologies that advance blade
structural performance, durability, and manufacturability, from concept through validation
and production integration.
Develop and apply multi-fidelity engineering tools and models to evaluate, optimize, and
improve blade structural designs at both component and product level.
Characterize and apply composite material behavior, including damage progression, fatigue
response, and failure mechanisms, to drive design improvements informed by physical
evidence.
Identify product-level structural challenges and lead engineering solutions that address root
causes, not just symptoms, spanning laminate design, joint architecture, sandwich
construction, and manufacturing methods.
Collaborate with aerodynamics, loads, controls, and manufacturing disciplines to ensure
structural designs are integrated, producible, and field proven.
Field Investigation & Root Cause Analysis
Lead hands-on assessment of damaged and failed composite wind turbine blades in factory
and field environments. This is a core, non-delegable part of the role.
Own root cause analysis for the business unit's most challenging structural failure modes,
with current priority on root joint structural fatigue; sandwich composite damage
mechanisms including core cracking and laminate-core interface delamination; and
manufacturing defect characterization and prediction.
Define and implement corrective and preventive solutions that close the loop between field
findings and upstream design, including repair methodologies, design changes, material
substitutions, and process improvements.
Work with blade material and testing teams to validate engineering models and design
assumptions against physical evidence from field and factory.
Communicate findings and recommendations with clarity to engineering, production, and
operations stakeholders.
AI-Augmented Engineering
Apply AI and data-driven tools to accelerate structural assessment, defect pattern
recognition, and failure analysis of workflows.
Leverage available AI tools to improve the efficiency and consistency of RCA
documentation, reporting, and corrective action tracking.
Maintain engineering rigor in evaluating AI-assisted outputs. Physical understanding of
composite behavior governs not model output alone.
Qualifications Required:
MS or PhD in Aerospace, Mechanical, Civil Engineering, or a closely related discipline.
5+ years of professional engineering experience in wind energy, aerospace, or a closely
related structural composites industry.
Deep knowledge of composite design, damage mechanics, and manufacturing methods,
including sandwich composite structures, adhesive joints, and bolted connections.
Expertise in FEA/FEM modeling and analysis experience (ANSYS, ABAQUS, or similar) in
shells and solids covering composites to tooling interfaces and damage modeling.
Demonstrated track record of leading root cause analysis for complex composite structural
failures and driving corrective and preventive solutions through implementation.
Proven ability to work effectively across organizational boundaries (production, operations,
and engineering) without direct authority.
Strongly Valued
Hands-on experience leading or strongly supporting blade manufacturing, prototyping, or
serial production on a specific project.
Background in novel concept development: ideation, engineering, prototyping, testing, and
production integration.
Experience developing or applying data-driven / AI tools in a structural engineering context
(e.g., defect classification, anomaly detection, fatigue life prediction).
Proficiency in Python, MATLAB, or similar scripting, data processing, automation of
analyses.
Background in novel composite repair methodology development, including validation
testing and production integration.
What We're Looking For
The ideal candidate moves fluidly between the field and the design office and sees them as the
same problem viewed from different angles. You build physical intuition from hands-on failure
investigation, and you apply that intuition to develop design technologies and product solutions that
make the next blade better than the last. You are intellectually restless about failure: you want to
understand why something failed and use that understanding to advance the product, not just
document the incident. You have the persistence and cross-functional credibility to drive solutions
from first principles all the way through to implementing design and field-validated results.
Strong interpersonal, collaboration, and communication skills are essential. Envision's culture is
entrepreneurial and fast-moving; a minds-on/hands-on approach is expected. Desire and ability to
work effectively across cultural boundaries and international time zones is critical.
Work Arrangement & Travel
Work arrangement: Hybrid
Travel: Up to 15% international travel, including field site visits and collaboration with global
GBIC teams.
Apply Now
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