Upload
4m-industrial-oxidation
View
76
Download
1
Embed Size (px)
Citation preview
Market Ready Plasma Oxidation 75% Unit Energy Savings with 3X Greater Throughput
and Better Properties
RMX Technologies
The mission of RMX Technologies is to generate high value intellectual property in the material science technology sector that solves difficult problems faced by today’s material users.
We accomplish this by combining our plasma and materials science expertise with our experience in product development to create clean economical and scalable solutions for industry.
4M Industrial Oxidation
4M Industrial Oxidation (a subsidiary of RMX Technologies) is commercializing
a patented and proven technology that can lower carbon fiber manufacturing cost
by 20%.
4M will manufacture and sell plasma components and the control system for each
Plasma Oven sold by Litzler. Each oven will be sold with a 4M technology license
for the use of the patented Plasma Oxidation technology.
A multi-year joint development effort between RMX and ORNL that was funded by the Department of Energy/Vehicle Technologies.
Culminated in the successful operation of the 1 aMT Plasma Oxidation Oven.
All development work is complete.
All IP is jointly owned.
2004 – First BenchtopPlasma Oxidation Device 2014 – 1 aMT Plasma Oxidation Oven
The Oxidation Oven – Development Complete
Plasma Oxidation is a proven technology. Compared to conventional oxidation, plasma oxidation: Makes a better product Is 3 times as fast Uses less than 25% of the energy per pound of fiber Takes up significantly less space (1/3 size) Reduces carbon fiber manufacturing cost by 20%
The Oxidation Oven – Proven Performance
The Oxidation Oven – Proven Performance
Client Oxidation Rate
Increase
Oxidation Energy Savings
Carbon Fiber Properties
Precursor Type
DOE 2.7X 77% Comparable 4x48k Commodity-
PAN
Client 1 3X 86% Comparable ProprietaryCommodity-
PAN
Client 2 5X Batch Comparable ProprietaryLignin
Client 3* 1X 78% Better ProprietaryAerospace-PAN
Dralon* 2.5X 42% OPF-Comparable 1x57.6kTextile-PAN
*Preliminary trials only – more work required to determine optimal results
The Oxidation Oven - Commercialization
Plasma oxidation performance is proven with multiple carbon fiber manufacturers’ precursors and we are now testing Dralon’s textile PAN.
Guidance from multiple manufacturers have defined the equipment scale needed to validate commercial use – 175 aMT (carbon fiber). Manufacturers have strong interest in buying production-scale equipment once performance is validated at this scale.
Therefore 4M was created and a four-phase commercialization plan was established and implemented earlier this year.
The Commercialization Plan - Goals
Scale the technology by building a 175 aMT-CF Plasma Oxidation Oven.
Integrate this oven into an OPF conversion line at same scale to demonstrate the technology to the carbon fiber industry and produce and sell OPF in 24 months.
Sell licensed production-scale ovens through partner Litzler.
Develop high-strength low-cost precursor through partner Dralon specifically tailored for plasma oxidation.
1
2
3
4
The Commercialization Plan - Phases
Phase 1
Phase 2
Phase 3
Phase 4
The smallest replicable section of the 175 aMT oven will be constructed and tested to optimize design and functionality.
Lessons learned from Phase I will be used to construct the next replicable size step up that will allow complete optimization.
Experience gained in Phase I and Phase II will be used to complete the fully operational 175 aMT Plasma Oxidation Oven.
Sustained operation of the full scale oven will commence to demonstrate the technology to the industry and to produce and sell OPF.
The Results – 600 ksi $7/lb. Fiber in 24 Months
600 ksi carbon fiber costing $7/lb. is possible in 24 months.
How?
Dralon stated they could develop a low-cost precursor yielding 500 ksi carbon fiber with conventional conversion.
Our 1 aMT oven demonstrated higher carbon fiber mechanical properties over conventional oxidation.
A recent paper1 showed an increase of 30% in carbon fiber tensile strength using plasma over conventional oxidation.
600 ksi is achievable from a low cost precursor whose chemistry is specifically tailored to our plasma oxidation process.
1Lee, et al. Efficient preparation of carbon fibers using plasma assisted stabilization. Carbon, 55, 361 (2013).
400
450
500
550
600
650
Conventional Plasma
Tens
ile S
tren
gth,
ksi
Dralon
20% Increase
Commercialization Partners
• Selling ovens for 60 years and has installed many carbon fiber production lines.
• Will fabricate and sell Plasma Oxidation ovens to Carbon Fiber Producers that include a 4M technology license.
• Market growth will require many new Carbon Fiber production lines and ovens in the next decade.
• An established textile acrylic fiber supplier.
• 4M and Dralon are co-developing a low-cost carbon fiber precursor specifically tailored to 4M’splasma oxidation process.
• Market growth will require new precursor types that presently do not exist.
The Opportunity
What would help:• Expertise – Technical, sales,
business, project support, etc.• Resources – build it, test it,
procure it, facilities, equipment, transportation, etc.
What you could get:• Low cost fiber ahead of competition
• Operating parameters for your precursor
• Valuable process trade secrets
• Royalty preferences
• Input & participation in scale-up program
• Installation, operations, maintenance, improvements head start over competition
• Early access to ovens and fiber
• Preferred access to next generation ovens
• Potential exclusive use of the technology
Conclusion
The commercialization of plasma oxidation has already begun. A 175 aMT plasma oxidation oven will be successfully
demonstrated in less than 24 months. 600 ksi carbon fiber costing $7/lb. is possible in 24 months. There is a window of opportunity for end users and carbon fiber
manufacturers to become strategic partners of 4M to accelerate this timetable.
Check us out at www.4mio.com
Truman Bonds, Vice President for R&D
865-777-2741
Contacts
Dick Nixdorf, Chairman
865-719-5519
Rod Grubb, President
865-599-7762