New type of material that heat can't bloat.

Most substances expand when warmed. That can be bad, especially in devices such as precision telescopes, whose components must maintain their shapes across a wide temperature range. Now, scientists have discovered a metallic compound that nixes thermal expansion thermal expansion

Increase in volume of a material as its temperature is increased, usually expressed as a fractional change in dimensions per unit temperature change. by what appears to be an unprecedented mechanism.

Mercouri G. Kanatzidis and his colleagues at Michigan State University Michigan State University, at East Lansing; land-grant and state supported; coeducational; chartered 1855. It opened in 1857 as Michigan Agricultural College, the first state agricultural college. in East Lansing East Lansing, city (1990 pop. 50,677), Ingham co., S central Mich., a suburb of Lansing, on the Red Cedar River; inc. 1907. The city was first known as College Park, but was renamed when it was incorporated. created the compound by heating a mixture of equal parts of ytterbium ytterbium (ĭtûr`bēəm) [for Ytterby, a town in Sweden], metallic chemical element; symbol Yb; at. no. 70; at. wt. 173.04; m.p. 819°C;; b.p. about 1,194°C;; sp. gr. about 7.0; valence +2 or +3. , gallium, and germanium germanium (jərmā`nēəm) [from Germany], semimetallic chemical element; symbol Ge; at. no. 32; at. wt. 72.59; m.p. 937.4°C;; b.p. 2,830°C;; sp. gr. 5.323 at 25°C;; valence +2 or +4. to 850[degrees]C and then cooling the melt to room temperature. The resulting silvery metal neither enlarges nor shrinks over the broad range of about -200[degrees]C to room temperature, the scientists report in the Oct. 16 Nature.

That stability may result from internal electron rearrangements, the researchers propose. With heating, the material's crystal lattice swells normally. However, some thermally excited ytterbium ions expel an electron and therefore shrink just enough to compensate for the lattice expansion.

Because many other elements should be capable of ytterbium's shrinking trick, the new approach could amount to a versatile strategy for making zero-expansion materials, says Kanatzidis.

COPYRIGHT 2003 Science Service, Inc.
No portion of this article can be reproduced without the express written permission from the copyright holder.

Reader Opinion

Article Details
Printer friendly Cite/link Email Feedback
Title Annotation:	Physics)(metallic compound; metallic compound; Physics
Publication:	Science News
Article Type:	Brief Article
Geographic Code:	1USA
Date:	Nov 1, 2003
Words:	179
Previous Article:	Cancer drug might fight Alzheimer's.(Biomedicine)(imatinib mesylate, or Gleevec)(Brief Article)
Next Article:	California acts on plastic additive.(Environment)(state adds to list of reproductive toxicants)(Brief Article)
Topics:	Expansion (Heat) Observations Metallic composites Observations Specialty metals industry Thermal expansion Observations

Related Articles
Fluorosilicone and conductive silicones.
Metallic coagents for rubber-to-metal adhesion.
Techniques for bonding rubber to metal using metallic coagents.
Superconductor has odd electron pairing. (Physics).(Brief Article)
Development, evalation and application of solid fluxes.(foundry practices in the use of powder and granular fluxes)
Solvent shakedown: the mechanochemistry alternative.(Innovations)
Use of coagents for adhesive and dynamic property improvements in peroxide-cured IR.
Hot crystal: lightbulbs and a radiation law may never be the same.
Warm reflections: window tint kicks in when it's hot.(This Week)
Viscosity modifier for HP elastomers.