ScienceIQ.com

Finding Ice In The Rocks--Evidence Of Earth's Ice Ages

In the late 1700s, geologists began trying to determine how huge boulders of granite weighing several tons could have moved as much as 80 km (50 miles) from their origins in the Swiss Alps. Some thought they must have been transported by the Great Flood. Geologists who examined the alpine valleys downslope from glaciers noted that the hard bedrock ...

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EarthsIceAges
Astronomy

The Oldest Light in the Universe

A NASA satellite has captured the sharpest-ever picture of the afterglow of the big bang. The image contains such stunning detail that it may be one of the most important scientific results of recent ... Continue reading

OldestLightUniverse
Biology

Batesian Mimicry

If you ever got stung by a wasp you would probably avoid all flying insects which resemble the brightly-colored yellow and black wasp. If you were a bird and certain types of butterflies gave you a ... Continue reading

BatesianMimicry
Engineering

Drip, Drip Water Clocks

Water clocks were among the earliest timekeepers that didn't depend on the observation of celestial bodies. One of the oldest was found in the tomb of the Egyptian pharaoh Amenhotep I, buried around ... Continue reading

DripDripWaterClocks
Biology

Why Can't We Really Clone Dinosaurs?

You might think, if you saw the movie Jurassic Park, or read the book, that a real live cloned dinosaur would be on the TV evening news any day now. Not very likely! In the fictional version, the ... Continue reading

CloneDinosaurs

Pass the Basalt

PasstheBasaltAdvanced composite materials technology is a field that is growing both quickly and steadily. That new fiber materials and applications will be developed is the proverbial 'no brainer'. However, basalt fiber represents one of those little strokes of simple genius that appear once in a while. Basalt itself is familiar from the columnar formations in volcanic deposits. That same columnar structure is a clue to the molecular behaviour of basalt, a hint that it might be a viable fiber-forming material. Molten basalt can indeed be extruded into fibers, but what was basalt first if not just molten rock ejected from the vent (a volcano...) of a very large furnace (the Earth...)? Where else do we see this happening?

How about in the metals industry, where millions of tons of molten rock are ejected from somewhat smaller furnaces each year in the form of slag? Indeed, basalt fiber is now produced in quantity in two source grades: 'basalt', and 'modified basalt' or slag. Basalt fibers can be processed into all the fabric forms currently available with glass fiber, and they can be substituted directly into any application for which glass fiber is suitable. Basalt fiber materials are proving to be a very useful alternative in applications calling for a more robust version of glass fiber, and in other applications that have traditionally been the domain of rock fibers such as asbestos.

Since basalt is also a rock fiber it exhibits far better heat resistance than does glass fiber, withstanding conditions that would quickly destroy glass constructs. It also exhibits a significantly higher chemical stability than does glass fiber. Being a recently developed material, research into potential applications of basalt fiber has really only just begun. The properties of basalt fiber will certainly guarantee that its major uses will be in the construction trades, but it will undoubtedly see far broader applications as well.