Trace Evidence Fibers
Sources Carpets, clothing, linens, furniture, insulation and rope
Direct Transfer Fibers transferred directly from victim to suspect or suspect to victim Example: fibers from a victim’s shirt found on the suspect
Secondary Transfer Fibers from a source on a person and then transferred to another source or person Example: fibers from carpet transferred to suspect and then transferred to a victim
Investigating Fibers Within 24 hours, 95% of all fibers are lost from a crime scene. Only fibers that don’t belong in a scene are collected.
Fibers as Evidence Value depends on uniqueness Ask questions about: –Type of fiber –Fiber color –Number of fibers found –Where the fiber was found –Textile the fiber originated from –Multiple fiber transfers –Type of crime committed –Time between the crime and discovery of fiber
Sampling and Testing Gathered with special vacuums, sticky tape, and forceps Must record where the fibers are found Polarizing light microscopy – looks at fibers with specific light wavelengths Infrared spectroscopy – beam of light shoots at fiber and reflects, how it changes reveals the chemical structure Burn Tests Dissolving fibers in various liquids
Textiles Most common form of fiber evidence is shedding of a textile Clothing, carpets, upholstery Made of yarns Yarns made of fibers
Fiber Classification Natural Synthetic
Natural Come from animals, plants, and minerals
Animal Fibers Made from proteins Fur is a good donor but not a textile Most common from animals is hair (wool, mohair, cashmere, angora, hair from camels) Hair used in textiles is usually spun loosely for comfort, also sheds more easily
Animal Fibers Silk is collected from Bombyx mori Reared in captivity and unwound by hand Shimmering appearance comes from triangular shape of fiber which scatters light like a prism. Do not shed easily because they are long.
Plant Fibers Made of cellulose, which is very different from proteins Absorbs water but will not dissolve in it. Very resistant to harsh chemicals Cotton is most popular Fibers are short and become brittle over time, so small pieces of fiber are shed often.
Plant Fibers Seed Fibers – cotton Fruit Fibers – Coir found from the covering surrounding coconuts Stem Fibers – Hemp, jute, flax, linen Leaf Fibers – Manila from abaca and Sisal which is used for ropes and twines
Mineral Fibers Fiberglass – very short, weak and brittle, stick to skin very easily because they are fine Asbestos – long, thin fibers; very durable so used in tiles, shingles, siding, and fire-resistant clothing
Synthetic Fibers Rayon, acetate, nylon, acrylics, and polyesters Changing size of spinnerets changes shine, softness, and feel
Comparison of Natural and Synthetic Fibers Synthetic fibers are stronger than natural fibers and are not damaged by microorganisms. Synthetic fibers do deteriorate in sunlight and have lower melting temps.
Cotton – flattened hose appearance with blunt points, hollow core Flax – bamboo stick appearance, straight with angles Silk – does not taper, no internal structures Wool – surface scales visible, hollow core, tapers to fine point Synthetic – uniform in diameter, surface treatment may appear as spots, stains, or pits, generally straight
Flax (top) Cotton (bottom) Silk (top) Wool (bottom)
Yarns Sometimes made with a blend in fibers for certain qualities Rope is one big yarn Identify twist direction
Textiles Lengthwise yarn (warp) side by side and close together Crosswise yarn (weft) woven back and forth in specific patterns Types: tabby (plain), twill, satin Patterns expressed in numbers: –Tabby 1/1 (weft goes over 1 warp and under one warp) –Twill 3/1 (over 3 and under 1)