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CNT Technologies Inc. and Los Alamos National
Laboratory (LANL) is manufacturing the world’s strongest engineering
material on a strength to weight comparison ever reported. |
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While most of our production capacity is
currently committed, CNT-Tech is selling a limited amount of CNT fiber
samples to major corporations. |
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Contact Dr. Randolph Tremper tremper@cnt-technologies.com
for specifications and a quotation. |
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CNT-Tech
was incorporated in the State of Washington in 2006. |
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CNT-Tech has executed a broad and exclusive
License Agreement with Los Alamos National Laboratory (LANL) for their
carbon nanotube patents. |
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CNT-Tech owns the exclusive rights to all CNT
technology developed by LANL under the terms of an executed Cooperative
Research and Development Agreement (CRADA). |
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CNT-Tech has developed proprietary spinning
technology that can be used to produce CNT fiber at high speed in
commercial quantities. |
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The intellectual property is protected by 9
patent applications. |
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In
the prior graph, the three blue diamonds in the lower left hand corner of
the graph plot the strongest and stiffest carbon nanotube fibers reported
by our closest competition. The
graph also plots the strongest and stiffest known engineering materials on
a strength to weight basis (white circles and green squares). |
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Please note that the entire prior graph will
be depicted in the lower left hand corner of the next graph which plots a
representative sampling of the specific strength and specific stiffness
achieved by our CNT fiber (represented by the red balls). As you will see in the following graph,
our CNT fiber is the strongest engineering material on a strength to weight
basis ever reported. |
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CNT fibers spun at LANL & CNT-Tech
outperform the strongest known commercial engineering materials in the
world |
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The specific strength of our CNT fibers is 2.2
to 5.3 times of that of the strongest commercial fiber (“T1000”). |
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The specific modulus of our CNT fiber is 1.6 to
4.3 times that of the stiffest commercial fiber (“M70J”). |
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The variation in strength/stiffness of our CNT
fiber plots (red points) is due to the different parameters used in the
growth process. They are representative of what we have achieved. |
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Mailing address: |
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CNT TECHNOLOGIES INC. Dr. Randolph Tremper |
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4216 NE 70th Street President |
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Seattle, Washington 98115 tremper@cnt-technologies.com |
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Facility: Robert
O’Leary |
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CNT Technologies Inc. Chairman & CEO |
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Research Park Building oleary@cnt-technologies.com |
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2nd Floor |
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4200 West Jemez Road |
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Los Alamos, New Mexico 87544 |
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All investment inquiries should |
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be
directed to: Thomas Puzzo, General
Counsel puzzo@cnt-technologies.com |
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The Pilot Plant Objectives are: |
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The Pilot Plant will be operational 15 –18
months following funding and will produce 2 to 5 kilograms per day of CNT
fiber. |
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The CNT fiber will be sold to major corporations
to develop applications/products |
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The CNT fiber will sell for $3,750 to $7,500 per
pound, subject to specifications and availability. Advanced orders for CNT fiber are currently being taken. Contact: Dr. Randolph Tremper,
President at: tremper@cnt-technologies.com |
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Once sufficient application and demand is
established, CNT Technologies will construct a major production facility in
the United States. All CNT “base”
fiber will be produced in the USA. |
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Exclusive national distribution agreements and
product licenses are currently available.
Downstream production facilities can be located outside of the
United States. All inquiries
concerning such arrangements should be directed to:
Thomas Puzzo, General Counsel puzzo@cnt-technologies.com |
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Notes