Materials Engineering · Vermont
Materials Engineering colleges in Vermont
CampusPin lists 8 U.S. colleges in Vermont that offer Materials Engineering programs. Compare tuition, acceptance rate, and enrollment in the table below, every figure links back to the institution's official IPEDS data.
Materials engineering applies chemistry, physics, and engineering to choose, modify, and test metals, ceramics, polymers, and composites for real products.
Schools in Vermont that offer Materials Engineering
Middlebury College
Middlebury, VT · University · Private
Tuition
$65,280
Acceptance
10%
Enrollment
2,842
Norwich University
Northfield, VT · University · Private
Tuition
$49,600
Acceptance
74%
Enrollment
3,122
Saint Michael's College
Colchester, VT · University · Private
Tuition
$50,040
Acceptance
92%
Enrollment
1,349
Sterling College
Craftsbury Common, VT · University · Private
Tuition
$40,760
Acceptance
92%
Enrollment
66
University of Vermont
Burlington, VT · University · Public
Tuition
$18,890
Acceptance
60%
Enrollment
13,766
Vermont College of Fine Arts
Montpelier, VT · University · Private
Tuition
$41,467
Acceptance
78%
Enrollment
5,605
Vermont Law and Graduate School
South Royalton, VT · University · Private
Tuition
$41,467
Acceptance
52%
Enrollment
8,195
Vermont State University
Randolph, VT · University · Public
Tuition
$11,400
Acceptance
83%
Enrollment
4,616
Materials Engineering programs in Vermont: by the numbers
A quick comparison of the 8 schools listed above, drawn from each institution's published IPEDS data.
Schools listed
8
Public / private
2 / 6
Universities / 2-year
8 / 0
Cities represented
8
In-state tuition range
$11,400–$65,280
Median in-state tuition
$41,467
Lowest published in-state tuition
Vermont State University
$11,400
Most selective
Middlebury College
10% acceptance
Largest by enrollment
University of Vermont
13,766 students
Figures reflect the schools currently listed and each institution's most recent reported data. Verify current tuition and admissions details with the school before applying.
What you'll study in a Materials Engineering program
- Crystal structure, bonding, and the atomic basis of material properties
- Phase diagrams and the relationship between processing, structure, and performance
- Mechanical behavior including strength, fatigue, fracture, and creep
- Metals, ceramics, polymers, semiconductors, and composite material families
- Thermodynamics, kinetics, and diffusion in materials systems
- Materials characterization with microscopy, X-ray diffraction, and spectroscopy
- Materials selection, corrosion control, and failure analysis methods
- Hands-on laboratory testing of samples under load and environmental conditions
- A senior capstone or design project applying materials knowledge to a real problem
Where a Materials Engineering degree can lead
- Materials Engineer
- Metallurgical Engineer
- Ceramics Engineer
- Polymer Engineer
- Process Engineer
- Materials Scientist
Typical pay: Early-career wages vary by employer, region, and experience (BLS, 2024 materials engineers median $108,310).
Materials engineering is about deciding what things should be made of and why. Students study how the internal structure of metals, ceramics, polymers, semiconductors, and composite materials shapes properties like strength, conductivity, corrosion resistance, and behavior under heat or stress, then use that understanding to choose, modify, or design materials for a specific job. Coursework blends mathematics, chemistry, and physics with engineering practice: you learn how atoms bond and arrange into crystals, how processing steps such as heating, cooling, casting, or bonding change a material, and how to match a material's properties to a product's requirements and cost limits. Unlike materials science, which leans toward discovery and explaining why materials behave as they do, materials engineering is weighted toward application, manufacturing processes, and designing materials and components that perform reliably in service. It is also broader than metallurgical engineering, which focuses specifically on metals, because materials engineers work across metals, polymers, ceramics, and composites alike.
The standard entry credential is a bachelor's degree, and programs are heavily lab-based: students run experiments characterizing samples, test how materials fail under load, and complete a senior capstone or design project applying their knowledge to a realistic problem. Because much of the work touches public safety and infrastructure, engineers who approve designs or offer services to the public may need to become licensed professional engineers, a path that involves passing examinations and gaining supervised experience; students should verify both programmatic accreditation and any state licensure requirements for their intended path. Graduates work in settings such as manufacturing plants, aerospace and automotive firms, electronics and semiconductor producers, energy and defense operations, biomedical device companies, and research or quality laboratories, often in roles spanning materials selection, process development, failure analysis, and quality assurance.
In federal data for the closely related occupation of materials engineers, the U.S. Bureau of Labor Statistics reports a 2024 median wage of $108,310 and projects employment to grow about 5.7% from 2024 to 2034; a bachelor's degree is the typical entry-level education for that occupation. National figures are occupation-wide medians across all experience levels, not starting wages or graduate outcomes.
Materials Engineering in other states
Find more Materials Engineering schools
Use CampusPin's filter-first search to narrow 8+ Materials Engineering programs in Vermont by tuition, school size, acceptance rate, and campus setting.