Planting plastic

Kenny McCabe, a horticulture research

associate and graduate student at Iowa

State University, Ames, and James

Schrader, an assistant scientist in horticul-

ture, are part of a five-year study of the pro-

duction and performance of different kinds

of bioplastic pots. The study is supported

by a $1.94 million grant from the U.S. De-

partment of Agriculture and led by William

Graves, professor of horticulture and asso-

ciate dean of the graduate college. The

team operates within the Center for Crops Utilization Research and is hoping to build a

Center for Bioplastics and Biocomposites (CB²) with grant money from the National Sci-

ence Foundation. The proposed center has three major goals: to improve the basic under-

standing of the processing and properties of bioplastics; to provide reliable data about

bioplastics for industry; and to support large-scale manufacture and use of biorenewable

plastics. The team’s long-term goal is to increase the bioplastics market share by at least

20

%. For more information: Kenny McCabe, 515/294-2751,

kgmccabe@iastate.edu

,

www.iastate.edu

.

Self-healing metal

Massachusetts Institute of Technology, Cambridge, researchers found that under cer-

tain conditions, putting a cracked piece of metal under tension has the reverse effect, caus-

ing the crack to close and its edges to fuse together. The reason lies in how grain boundaries

interact with cracks in the crystalline microstructure of a metal—in this case nickel, which

is the basis for superalloys used in

extreme environments, such as in

deep-sea oil wells. By creating a

computer model of that mi-

crostructure and studying its re-

sponse to various conditions,

researchers found that there is a

mechanism that can, at least in

principle, close cracks under any

applied stress.

Self-healing occurs only across a

certain kind of boundary—one that

extends partway into a grain, but not

all the way through it. This creates a

type of defect known as a disclina-

tion. These defects have intense stress fields, which can be so strong that they actually re-

verse what an applied load would do. The work was funded by the BP-MIT Materials and

Corrosion Center.

For more information: Michael Demkowicz, 617/324-6563,

demkowicz@ mit.edu

,

http://demkowicz.mit.edu

.

Bent glass dance floor for atoms

A research team led by David Muller, professor of applied and engineering physics and

co-director of the Kavli Institute at Cornell for Nanoscale Science, Ithaca, N.Y., and the

University of Ulm, Germany, used an electron microscope to bend, deform, and melt a one-

molecule-thick glass. These are all things that happen just before glass shatters, and for the

first time, the researchers directly imaged such deformations and the resulting “dance” of

rearranging atoms in silica glass.

“No one has ever been able to see how the atoms in a glass rearrange when you push on

news

industry

briefs

Pershing Gold Corp.,

Lakewood,

Colo., initiated the metallurgical

studies needed for mine planning

and permitting activities at Relief

Canyon. The company selected

McClelland Labs Inc.,

Sparks,

Nev., to conduct a series of

metallurgical tests designed to

determine the best crush size and

agglomeration method, with the

objective of increasing gold

recovery and determining waste

rock characterization. To support

this study, Pershing recently drilled

five large-diameter diamond core

holes located in the north and

south pits to provide representative

samples for the tests.

Approximately 1380 ft of core will

be sent to the McClelland facility

where it will be split, crushed,

sampled, and subjected to

metallurgical analysis.

www.pershinggold.com

,

www.mettest.com

.

The University of Washington’s

Applied Physics Laboratory,

Seattle, teamed up with

OceanGate Inc.,

Everett, Wash., to

build an innovative five-person

submarine that would travel to

almost 2 miles below the ocean’s

surface. The submarine, named

Cyclops, has a carbon-fiber hull

that can take passengers to 9842

ft.

The Boeing Co.

worked with

OceanGate and UW on initial

design analysis of the 7-in.-thick

pressure vessel. The design uses a

strategy where each strip of

carbon fiber and resin is precisely

placed to ensure that there will be

no gaps or weak points. The

battery will be a lithium-polymer

design that will also make the sub

lighter and able to dive longer and

faster than traditional subs.

www.apl.washington.edu

,

www.oceangate.com

,

www.boeing.com

.

M

ETALS

P

OLYMERS

C

ERAMICS

ADVANCED MATERIALS & PROCESSES •

JANUARY 2014

6

Iowa State’s Kenny McCabe studies plant

performance in pots made from bioplastics.

Novelis,

Atlanta, completed a two-year, $400 million

expansion program in Seoul, South Korea. The

expansion of its Yeongju and Ulsan plants increases the

company’s production capacity in the region by more

than 50% to approximately one million metric tons of

aluminum sheet per year. The expansion includes a hot

rolling finishing mill, cold rolling mill, pusher furnace,

high-speed slitter and annealing furnaces, in addition

to the previously commissioned fully-integrated

recycling center at Yeongju. The demand for aluminum

in the Asian automotive market is expected to exceed

the 25% compound annual growth rate projected

globally over the next five years, as more automobile

manufacturers move to build lighter, more fuel-efficient

vehicles.

www.novelis.com/en-us.