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Jarape Forense "TEXTILES, FIBRAS, POLÍMEROS Y PELOS"

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ANALYSIS - ANALISIS

  • Caracterización estructural de fibras lyocell y su comportamiento frente a procesos de degradación (Fernando Carrillo Navarrete)
  • Characterization of fibers produced from blends of polybutylene and polypropylene (Robert L. Shambaugh y Diana L. Ortíz)
  • Chemical analysis of okra bast fiber (Abelmoschus esculentus) and its physicho-chemical properties (Shamsul Alam y G. M. Arifuzzaman Khan) {JTATM, 2007}
  • Environmentally friendly forensics: The characterization of eco-fibers (Dale K. Purcell et al) {John Jay College of Criminal Justice - The Graduate Center, CUNY)
  • Fiber analysis (David A. Katz)
  • Fiber identification in practice (Martha Goodway)
  • Forensic examination of fibres - A review: 2001 to 2004 (James Robertson y Claude Roux)

ARCHAEOLOGICAL TEXTILES - TEXTILES ARQUEOLOGICOS

  • Forensic hair and fiber examinations in archaeology: Analysis of materials from grevesites at the home of Samuel Washington (Walter F. Rowe) {Tech Briefs in Historical Archaeology, 2010}
  • Microscopic analysis of feather and hair fragments associated with human mummified remains from Kagamil Island, Alaska (Carla J. Dove y Suzanne C. Peurach) {Ethnographical Series, vol 20}
  • Textiles del Más Allá (María Catalina Plazas García)

ASBESTOS

  • Asbestos identification and quantification in bulk samples (Alana Graham) {EMLab P&K, 2008}
  • Friability in PLM analysis {Fiberquant Analytical Services, 1994}
  • Polarized light microscope (PLM) analysis for asbestos in bulk sample {FiberQuant Analytical Services, 2014}
  • Sampling and testing for asbestos {DOH-NY, 2013}

BURNING TESTS - PRUEBAS A LA LLAMA

  • Burning tests for fibers

CASES - CASOS

  • Forensic fibre analysis to determine the origins of leg-entangling threads on shorebirds: a case study (Michael Weston et al)

CHROMATOGRAPHY - CROMATOGRAFÍA

  • Advances in discrimination of dyed textile fibers using capillary electrophoresis/mass spectrometry (Stephen L. Morgan et al)
  • Analysis of dyes extracted from millimeter-size nylon fibers by micellar electrokinetic chromatography [U.S. Department of Energy]
  • Development of a HS-SPME/GC–MS method for the analysis of volatile organic compounds from fabrics for forensic reconstruction applications (Simona Gherghel et al) [Forensic Sci. Internationale, 2018]
  • Forensic discrimination of selected vegetable fibers by Pyr-GC-MS and multivariate statistics (Kristen W. Sellers et al)

DSC

  • Characterization of single fibers for forensic applications using high speed DSC (W. J. Sichina y Steven Bouffard)

DYES - COLORANTES

  • Blue dye identification on cellulosic fibers: Indigo, logwood, and prussian blue (Ann Cordy y Kwan-nan Yeh)
  • Characterization of colour from some dye-yielding plants in Uganda (P. A. G. Wanyama et al) [African Journal of Pure and Applied Chemistry, 2010]
  • Dye analysis of pre-columbian peruvian textiles with HPLC-DAD detection (Jan Wouters y Noemi Rosario-Chirinos)
  • Enhanced trace-fiber color discrimination by electrospray ionization mass spectrometry: A quantitative and qualitative tool for the analysis of dyes extracted from sub-millimeter nylon fibers (Albert A. Tuinman et al)
  • Fiber-safe extraction of red mordant dyes from hair fibers (Erica J. Tiedemann y Yiqi Yang)
  • Forensic discrimination of yellow in similar colored single wool fibers by UV-Vis microspectrophotometry and TLC (Shinichi Suzuki et al) [JAFST, 2010]
  • Influence of cationization of cotton on reactive dyeing (M. Dubramanian Senthil Kannan et al)
  • Studies towards lightfast automotive dyes for polyester (Harold S. Freeman et al)

Evidence - Evidencia

  • A population study of fibres found on bus seats in Cracow (Jolanta Was-Gubala y Andrezej Chochól) {Problems of Forensic Sciences. 2001}
  • A single transferred fibre as evidence (Jolanta Was) {Problems of Forensic Sciences. 1999}
  • Chances and limitations operating with potentially crime-relevant textile fibre traces (Michael Staubert) {Problems of Forensic Sciences. 2001}
  • Persistence of fibers on ski masks during transit and processing (Deborah Chewning et al) {Forensic Science Communications, July 2008}
  • Recovery of fibres from partially buried clothing (Ruth Griffin) {Problems of Forensic Sciences. 2001}
  • The evidential value of black cotton fibres (Michael Grieve) {Problems of Forensic Sciences. 2001}
  • The evidential value of fibers used in Hi-Vis workwear (T. Coyle et al) [ASTEE, 2013]
  • The problems associated with finding fibres in terrorist cases (Ruth Griffin) {Problems of Forensic Sciences. 2001}

Fabrics and clothing - Telas y prendas

  • A novel method for the analysis of slash cuts to clothing (Graham Williams) {Journal of Forensic Research, 2013}
  • Detection of bullet v. nail damage to textile fabrics using PLM (Katherine A. Roberts et al) [ASTEE, 2018]
  • Dictionary of weaves. Part I (E. A. Posselt) {Textile Publishing}Company,

FIBRAS - FIBERS

  • Acetate fibers (Michael W. Davidson)
  • Acuerdo sobre los textiles y el vestido [Juris International]
  • An investigation of arcing in two structure weft knit fabrics (Necia A. Tou y Nancy B. Powell)
  • Anti contamination procedures for textile fibre examination - A discussion document (Roger Robson y Tiernan Coyle) {Problems of Forensic Sciences. 2001}
  • Application of nanotechnology for high performance textiles (Lei Qian y Juan P. Hinestroza)
  • Awakhuni: Tejiendo la historia andina {Museo Chileno de Arte Precolombino}
  • Bamboo fibre filled natural rubber composites: the effects of filler loading and bonding agent (Hanafi Ismail et al)
  • Bicomponent technologies have made significant advancements since their introduction in the mid-20th century (Jeffrey S. Dugan) {Textile World, 2010}
  • Bioplastic fibres from milk (Michael Thielen) {Bioplastics Magazine.com, 2013}
  • Bioplastics in textiles (Ana Marija Grancaric et al) {Polimeri, 2013}
  • Bombyx mori reeled silk fiber (Michael W. Davidson)
  • CSI technology unlocks secrets of ancient fabric (Corey Binns)
  • Cementitious composites reinforced with vegetable fibers (Marie-Ange Arsène et al)
  • Characterization of fibers produced from blends of polybutylene and polypropylene (Robert L. Shambaugh y Diana L. Ortíz)
  • Comparative population studies of fibres secured in Poland, Czech Republic and Germany (Jolanta Was-Gubala)
  • Comparison between the properties of husk green coconut and cruaua cellulose fibers chemically treated for compatibility with polypropylene matrix (P. F. Oliveira y M. F. V. Marques)
  • Complete textile glossary {Celanese Acetate LLC, 2001}
  • Cotton fiber identification {Project Cotton}
  • Cotton fibers (Michael W. Davidson)
  • Cuprammonium rayon fibers (Michael W. Davidson)
  • Dacron polyester fibers {MicroscopyU}
  • Dangerous fiber (Gisela Binde)
  • Design driven. The development of new materials in automotive interiors (Nancy B. Powell)
  • Dye analysis of pre-columbian peruvian textiles with HPLC-DAD detection (Jan Wouters y Noemi Rosario-Chirinos)
  • Effect of degree particle melt and crystallinity in SLS nylon-12 parts (C. E. Majewski et al) {U. Texas, 2008}
  • El arte de los tejidos andinos (Claudia Mora)
  • Environmentally friendly forensics: The characterization of eco-fibers (Dale K. Purcell et al) {John Jay College of Criminal Justice - The Graduate Center, CUNY)
  • Examination of transferred single fibers from fabrics of sanitary products to suspect's fingers (Hitomi Miyata y Keiko Ichikawa) [en japonés]
  • Fiber analysis (David A. Katz)
  • Fiber and fabric properties {Ingeo}
  • Fiber computing (Ozan Cakmakci et al)
  • Fiber formation during melt blowing (Randall R. Bresee y Wen-Chien Ko)
  • Fiber identification in practice (Martha Goodway)
  • Fibre names [BISFA]
  • Fibre, fibre burning bright (David Bradley)
  • Flax fibers (Michael W. Davidson)
  • Forensic automotive carpet fiber identification database (FACID) - Preliminary validation and evaluation (Lauren C. Abendshien et al)
  • Forensic fibre analysis - "Truth is smaller than fiction" [Forensic Access]
  • Forensic photography brings color back to ancient textiles (Dave Mosher)
  • From corn to clothing: Husks become textile fibers
  • General effects of aging on textiles (Randall R. Bresee)
  • Giant vehicles (Magdi A. Said et al)
  • Handbook on glossary of textile terms (Bureau of Indian Standards, 1988}
  • Hemp fibers (Michael W. Davidson)
  • Highly filled formaldehyde-free natural fiber polypropylene composites (Anand R. Sanadi y Daniel F. Caulfield)
  • Hilados (Sebastián Husni et al)
  • Identificación de fibras y tejidos. Tras la pista: Aproximación a la identificación de personas (Maria J. Martín Díaz)
  • Identification characteristics of PLA fibers: A new generic fiber type (Heather A. Vélez)
  • Influence of process conditions on melt blown web structure. Part IV - Fiber diameter (Randall R. Bresee y Uzair A. Qureshi)
  • Information content of textile labels in the USA, Canada, and Europe (Max M. Houck y Kimberly Reubush) {Problems of Forensic Sciences. 2001}
  • Kenaf bast fibers (Michael W. davidson)
  • Knitting (Timothy W. Ellis)
  • Linen prover simple microscope (Michael W. Davidson)
  • Major generic fibers
  • Make scale casts of hair specimens {Makezine}
  • Making rayon fiber 1999 (Praveen Kumar Jangala y Haoming Rong)
  • Medical textiles and skin equivalentes (D. Höfer y M. Swerev)
  • Melt-spun polybutylene fibers and nonwovens (Diana L. Ortíz y Robert L. Shambaugh)
  • Milk Fiber {Swicofil, 2015}
  • Milkweed fibers (Michael W. Davidson)
  • Minimizando la rotura del hilo y las puntadas saltadas [American & Efird, Inc]
  • New aromatic polyamide with azo and phosphine oxide groups in the main chain (Khalil Faghihi y Mohsen Hagibeygi) {Turk J. Chem. 2007}
  • New developments in textile industries. What fiber modifications can we expect to find in the near future? (Kornelia Nehse)
  • New forensic technique for identifying cloth fibers {Science Daily, 2013}
  • New product development and its applications in textiles (Wonseok Choi et al)
  • Non-destructive methods to investigate the deterioration extent of coptic egyptian textiles (Omar Abdel-Kreem y Khaled El-Nagar)
  • Nylon fiber - Polyamide [FiberSource]
  • Nylon fibers (Michael W. Davidson)
  • Nylon fibers (Raghavendra R. Hedge et al)
  • Online characterization of polypropylene fibers during melt spinning (Srinivasa Varkol et al)
  • Orlon fibers (Michael W. Davidson)
  • Persistence of fibers on ski masks during transit and processing (Deborah D. Chewning et al)
  • Physical damage to textiles (Nigel Johnson)
  • Pillow [eNotes]
  • Plant fibers (W. P. Armstrong) {Wayne's World, 2010}
  • Plasma treatment of textile fibers (Hartwig Hocker)
  • Poly(trimethylene terephtalate): A "new" type of polyester fiber (Max M. Houck et al) {Problems of Forensic Sciences. 2001}
  • Polyamide {Swicofil}
  • Polybenzimidazole fiber (Micheal W. Davidson)
  • Polypropylene fibers (Michael W. Davidson)
  • Prediction model for non-woven blending ratio by neural network (Lai Sang-Song)
  • Preparation and some properties of nylon 46 (R. Gaymans et al) {J. Polymer Sci., 1977}
  • Processing window of natural fibre-PLA composites (Martien van den Oever)
  • Production and characterization of textile fibers made from intrinsically conductive polymers (P. I. Richard V. Gregory)
  • Properties of polypropylene fibers with incorporated microcapsules (Mirjam Leskovsek et al)
  • Pseudoasbestos bodies and fibers in bronchoalveolar lavage of refractory ceramic fiber users (Pascal Dumortier et al)
  • Ramie fiber (Michael W. Davidson)
  • Ramie fibers - positive {MicroscopyU}
  • Ramie {Wikipedia}
  • Rayon fibers (Raghavendra R. Hedge et al)
  • Review of textile chemistry and manufacturing (David Hinks)
  • Rules and regulations under the Textile Fiber Products Identification Act [FTC]
  • Sample preparation for textile nanofiber composites (R. García et al)
  • Saran fiber (Michael W. Davidson)
  • Scene of crime evidence. Fibres. A review: 1998 to 2001 (Souad Chabli)
  • Short asbestos fibers (Michael W. davidson)
  • Silver cotton fibers (Michael W. Davidson)
  • Silver ramie fibers (Michael W. Davidson)
  • Spectra 1000 fiber (Michael W. Davidson)
  • Spider silk - structure, properties and spinning (D. Saravanan)
  • Surface characterization of natural fibers; surface properties and the water up-take behavior of modified sisal and coir fibers (Alexander Bismarck et al)
  • Synthetic fibers and textiles (Hazel M. Fletcher)
  • Synthetic wig fibers: Analysis and differentiation from human hair (Holly long et al) [ASTEE, 2014]
  • Tejidos precolombinos en el norte de Chile
  • Tencel fibers (Michael W. Davidson)
  • Terminology of man-made fibers. 2009 Edition [BISFA]
  • The case for casein fiber: Local design solutions for sustainability in manufacturing (Kimberly Fisher McKenna) {University of Kansas, 2012}
  • The changing face of fibre examinations in forensic science (Michael C. Grieve)
  • The difference between type 6,6 and type 6 nylon {Antron.@, 2013}
  • The forensic examination of fibres - A review: 2004 to 2007 (Ray Palmer)
  • The population of coloured textile fibres on outdoor surfaces (MC Grieve y T. Bierman)
  • The private forensic scientist and the criminal justice system (Michael T. Pailthorpe y Nigel A. G. Johnson)
  • The technology of Terry Towel production (Nazire Denis Yilmaz y Nancy B. Powell)
  • Three-dimensionally knit spacer fabrics: A review of production techniques and applications (Shanna M. Bruer et al)
  • Thrown raw silk fibers (Michael W. Davidson)
  • Towards high-index-glass based monomode holey fibre with large-mode-area (X. Feng et al)
  • Toxicología del asbesto (G. Luís et al) {Cuad Med Forense. 2009}
  • Weaving technology: Advances and challenges II. (Abdelfattah M. Seyam)
  • What are microfibers, anyway? (Tom Chianelli)
  • When it comes to nylon, don't do the math (Michael Sepe) {Plastics Tecnology, 2012}
  • Wild silk fibers (Michael W. Davidson)

GUIDELINES - GUÍAS

  • A forensic fiber examiner training program {SWGMAT}
  • A guide to slipcover fabrics (Simon Phillips
  • ASTM E2224-10 Standard guide for forensic analysis of fibers by infrared spectroscopy
  • ASTM E2225-10 Standard guide for forensic examination of fabrics and cordage
  • ASTM E2227-02(2008) Standard guide for forensic examination of non-reactive dyes in textile fibers by TLC
  • ASTM E2228-10 Standard guide for microscopic exemination of textile fibers
  • Asbestos (bulk) by PLM (NIOSH, 1994)
  • EPA Test Method 600/R-93/116. Method for the determination of asbestos in bulk building materials.
  • Forensic fiber examination guidelines [SWGMAT]
  • Forensic fiber examination guidelines: Infrared analysis of textile fibers (SGWMAT) [ASTEE, 2015]
  • Forensic human hair examination guidelines {SWGMAT, 2005}
  • Forensiv fiber examination guidelines: Fabric and cordage (SWGMAT) [ASTEE, 2015]
  • Study guide for the trace evidence-hairs and fibers certification examination {American Board of Criminalistics}

MICROSCOPY - MICROSCOPÍA

  • Comparative study of human and animal hair in relation with diameter and medullar index (S. V. Kshirvagar y S. P. Fulari) {Indian Journal of Medicine and Pathology, 2009}
  • In situ microscopic analysis of asbestos and synthetic vitreous fibers retained in hamster lungs following inhalation (Rick A. Rogers et al)
  • Microscopical identification of 19th century corset cording fibers (Kelly M. Brinsko) [JASTEE, 2010]
  • Microscopical investigation of selected RAES threads from the shroud of Turin (John L. Brown)
  • Modern microscopy on the light side... fibers, fibers, fibers everywhere (Richard E. Bisbing)
  • Polarized light microscopy of asbestos {OSHA}
  • The application of fluorescent microscopy to the screening of white single fiber identification (Masami Suzuki y Osamu Shimoda) [en japonés]
  • The forensic study of single fibre pull-out specimens using ToF-SIMS (Arran R. Wood)
  • The microscope and forensic identification of hair & fibers

MSP

  • An evaluation study for fibre analysis by UV-visible microspectrophotometry (J. Almer et al)
  • Pattern recognition methods for the classification of trace evidence textile fibers from UV-VIS and fluorescence spectra (Stephen L. Morgan et al) {projects.nfstc.org}

Polymers - Polímeros

  • Forensic Engineering of Advanced Polymeric Materials
  • Forensic engineering of advanced polymeric materials. Part VI – Degradation of polyester-based materials obtained by different processing methods – Comparative studies (Joanna Rydz et al) [Mathews Journal of Forensic Research, 2018]

TRICOLOGIA - HAIRS

  • A microscopical study of exotic animal hair: Part 1 (Kristen D. Partin)
  • A microscopical study of exotic animals hairs: Part 2. (Kristen D. Partin)
  • A Study on The Presence of Medulla Types of Hair Among the Young Jaat Residents of Western Uttar Pradesh (Amit Chauhan et al) [J Forensic Sci & Criminal Investigation, 2018]
  • Alaskan seal hair (Michael W. Davidson)
  • Alpaca natural charcoal wool (Michael W. Davidson)
  • An attempt to establish objective criteria for morphological examinations of hairs using the image analysis system (Jaroslaw Bednarek)
  • Analysis of hair samples using microscopical and molecular techniques to ascertain claims of rare animal species (Zainuddin Zafarina y Sudararajulu Panneetchelvam) {Malaysian Journal of Medical Sciences, 2009}
  • Angora goat hair (Michael W. Davidson)
  • Angora rabbit wool (Michael W. davidson)
  • Antelope hair (Michael W. Davidson)
  • Aquatic fungi growing on the hair of wild and domestic animal species in diverse water bodies (B. Czeczuga y E. Muszynska) {Polish Journal of Environmental Studies, 2001}
  • Baby caracul hair (Michael W. davidson)
  • Badger hair (Michael W. Davidson)
  • Bat hair (Michael W. Davidson)
  • Beaver hair (Michael W. Davidson)
  • Biological evidence - hair. A review: 2001 to 2004 (James Robertson)
  • Camel hair (Michael W. Davidson)
  • Cashemere hair (Michael W. Davidson)
  • Cat hair (Michael W. davidson)
  • Changes observed in human head hairs exposed to heat (Katherine Igowsky y Elizabeth Pangerl) [ASTEE, 2015]
  • Chinchilla hair (Michael W. davidson)
  • Chinese gray kid hair (Michael W. Davidson)
  • Chipmunk hair (Michael W. Davidson)
  • Civet cat hair (Michael W. davidson)
  • Comparison of hair color using image analysis (Hideaki Matsuda et al) [en japonés]
  • Correlation of microscopic and mitochondrial DNA hair comparisons (Max M. Houck y Bruce Budowle)
  • Cow hair (Michael W. davidson)
  • Deer hair (Michael W. Davidson)
  • Different animal species hairs as biological tool for the forensic assessment of individual identification characteristics from animals of zoological park, Pragti Maidan, New Delhi, India (Kapil Verma y Bhawana Joshi) {Journal of Forensic Research, 2012}
  • Dog hair (Michael W. davidson)
  • Elk hair (Michael W. davidson)
  • Ermine hair (Michael W. Davidson)
  • Estudio forense del pelo (Sergio Gustavo Vera)
  • Fiber transfer proficiency challenge (2005, Series A) Report [Quality Forensics]
  • Forensic hair analysis to identify animal species on a case of pet animal abuse (Itaru Sato et al) {Int J. Legal Med, 2010}
  • Forensic hair comparison: Background information for interpretation (Cary T. Oien) (Forensic Science Communications. 2009)
  • Forensic hair comparisons (Max M. Houck)
  • Forensic hair comparisons: Guidelines, standards, protocols, quality assurance and enforcement (Richard E. Bisbing)
  • Forensic human hair examination guidelines (SWGMAT)
  • Goat hair (Michael W. Davidson)
  • Groundhog hair (Michael W. Davidson)
  • Guinea pig hair (Michael W. davidson)
  • Hair analysis (David A. Katz)
  • Hair and fibers {The Thin Blue Line}
  • Hair evidence (Maggie Sat)
  • Hair evidence {nclarck.net}
  • Hair investigation (Malena González de León)
  • Hair microscopy in the age of DNA testing (Chesterene Cwiklik) {IAMA Newsletter, 2002}
  • Hair root morphology and STR typing (Kouichi Kawano et al) [en japonés]
  • Hairs (John Griffin et al)
  • Hairs, fibers, crime and evidence. Part 1: Hair Evidence (Douglas W. Deedrick)
  • Hairs, fibers, crime and evidence. Part 2: Fiber Evidence (Douglas W. Deedrick)
  • Hairs, fibers, crime and evidence. Part 3: Crime and Evidence (Douglas W. Deedrick)
  • Horse hair (Michael W. Davidson)
  • Human hair analysis among different castes having potential application in forensic investigation (Amna Khan et al) {J. Forensic Research, 2014}
  • Human hair analysis among four different castes having potential application in forensic investigation (Amna Khan et al) {Journal of Forensic Research, 2014)
  • Human hair perforation: An additional tool in forensic biology (Itisha Singh) {J. Forensic Research, 2014}
  • Hydrogen isotope systematics of hair: Archeological and forensic applications (Zachary D. Sharp et al)
  • Identification of animal hair fibres using DNA profiling techniques (Paul F. Hamlyn) {Fungus.org.uk, 1997}
  • Infrared microspectroscopy in forensic science. Hair fiber analysis {Thermo Scientific application note 50795}
  • Japanese pony belly hair (Michael W. davidson)
  • Kolinsky hair (Michael W. Davidson)
  • La química del pelo (Ana María Sosa Reyes)
  • Laboratory research and interlaboratory studies concerning forensic application of hair analysis (M. J. Welch et al)
  • Leopard hair (Michael W. Davidson)
  • Light scattering from human hair fibers (Stephen R. Marschner et al) {CS. Rutgers Edu}
  • Lincoln sheep wool (Michael W. Davidson)
  • Little variation exists between laboratory procedures for the microscopical examination of human hair (Nancy E. Murphy et al) [ASTEE, 2018]
  • Llama fiber {Llama.org}
  • Llama hair (Michael W. davidson)
  • Marmot hair (Michael W. davidson)
  • Merino wool (Michael W. davidson)
  • Microscopy of hair part I: A practical guide and manual for human hairs (Douglas W. Deedricks y Sandra L. Koch)
  • Microscopy of hair Part II: A practical guide and manual for animal hairs (Douglas W. Deedrick y Sandra L. Koch)
  • Mink hair (Michael W. Davidson)
  • Mole hair (Michael W. davidson)
  • Monkey hair (Michael W. davidson)
  • Morphological analysis of polymers on hair fibers by SEM and AFM (Valéria Fernandes M. et al)
  • Morphological characteristics of hairs in the roe deer (Capreolous capreolus Linnaeus, 1758) from the polish part of the Carpathian mountains (Dariusz Kulak y Marek Wajdzik) {Electronic Journal of Polish Agricultural Universities, 2006}
  • Mouse hair (Michael W. davidson)
  • Mouton lamb hair (Michael W. Davidson)
  • Muskrat hair (Michael W. Davidson)
  • NIR spectroscopic studies of human scalp hair in a forensic context (Sarina Brandes) {Queensland University of Technology, 2009}
  • Nutria hair (Michael W. Davidson)
  • Ocelot hair (Michael W. davidson)
  • Opossum hair (Michael W. Davidson)
  • Otter hair (Michael W. Davidson)
  • Persian lamb hair (Michael W. Davidson)
  • Preliminary study on morphometric analysis of the human scalp hair for discrimination of ethnic Malay and ethnic Chinese in Malaysia (Loong Chuen Lee et al) [Egyptian Journal of Forensic Sciences, 2019]
  • Quantitative analysis and classification of AFM images of human hair (S. P. Gurden et al) {Journal of Microscopy, 2004}
  • Rabbit hair (Michael W. Davidson)
  • Racoon hair (Michael W. Davidson)
  • Rat hair (Michael W. Davidson)
  • Recommendations for hair testing in forensic cases [Society of Hair Testing]
  • Russian cony hair (Michael W. Davidson)
  • Sable hair (Michael W. Davidson)
  • Scoured sheep wool (Michael W. Davidson)
  • Sheep wool felt (Michael W. Davidson)
  • Silver fox hair (Michael W. davidson)
  • Skunk hair (Michael W. Davidson)
  • Splitting hairs [Fisher Science Education]
  • Splitting hairs: firm helps put the right people in jail and keep the wrong ones out (Howard Fine)
  • Squirrel hair (Michael W. davidson)
  • Surface scanning electron microscopy of suri alpaca fiber and other members of the camel family (Andy Tillman y Cheryl Tillman)
  • That's not my hair. Hair analysis acceptable means of identification (Janine Sagar)
  • The application of hair cross sectioning to morphological examination of dyed hairs (Hideaki Matsuda et al) [en japonés]
  • The current status of microscopical hair comparisons (Walter Rowe) {The Scientific World Journal, 2001}
  • The medico-legal examination of hairs and fibres [University of Glasgow]
  • The quantitative classification of hair form and its application to the forensic comparison of japanese head hair (Hajime Sato )
  • The science of forensic hair comparisons and the admissibility of hair comparison evidence: Frye and Daubert considered (Max M. Houck)
  • Timber wolf hair (Michael W. Davidson)
  • Timing and appearance of postmortem root banding in nonhuman mammals (Adam Richard et al) [J. Forensic Sciences, 2018]
  • Trace evidence: Hair (Kathy Steck-Flynn)
  • Wool (Michael W. Davidson)
  • Yak down (Michael W. Davidson)

TRAINING - ENTRENAMIENTO

  • A forensic fiber examiner training program (SWGMAT - Fiber Subgroup. 2004)
  • Forensic human hair examination training program (SWGMAT - Hair Subcommittee)

UV-VIS

  • Deep UV microspectroscopy of textile fibers. Part I: Fiber substrates (Paul Martin) {IAMA NEWSLETTER, 2003}

VIBRATIONAL SPECTROSCOPY - ESPECTROSCOPÍA VIBRACIONAL

  • Analysis of bicomponent fibers using confocal raman mapping (Robyn Weimer et al) {JASTEE, 2012}
  • Analysis of single polymer fibers by FTIR microscopy: The results of case studies (Mary W. Tungol et al) {JFSCA, 1991}
  • Characterization of fibers by raman microprobe spectroscopy (Imelda P. Keen et al)
  • Comparison of nylon, polyester, and olefin fibers using FTIR and melting point analysis (Anne Kisler-Rao) [ASTEE, 2015]
  • FTIR spectroscopy of natural fibers (Mizi Fan et al) (Intechopen)
  • Forensic analysis of single fibers by raman spectroscopy (Jason Miller y Edward Bartick) {Applied Spectroscopy, 2001}
  • IR microspectroscopy in forensic science, hair fiber analysis [Thermo Scientific]
  • Identification of textile fiber by raman microspectroscopy (Li-Ling Cho)
  • Infrared emission spectroscopy and its application for the characterisation of textile fibres (Marion Friedrich y Dietrich R. T. Zahn)
  • Qualitative and quantitative characterization of textile material by FTIR (Tasnim Shaikh y S. A. Aggrawal) (International Journal of Innovative Research in Science, Engineering and Technology, 2014)
  • The analysis of colored acrylic, cotton, and wood fibers using raman spectroscopy (Patrick Buzzini y Genevieve Massonnet) {projects.nfstc.org}
  • Vibrational spectroscopy of keratin fibres: A forensic approach (Helen Panayiotou)

RULES AND STANDARDS - REGLAS Y ESTÁNDARES

  • ASTM E2224 Standard guide for forensic analysis of fibers by infrared spectroscopy
  • ASTM E2224-02 Standard Guide for Forensic Analysis of Fibers by Infrared Spectroscopy
  • BISFA policy and procedure for introducing new generic fibre names
  • Introduction to forensic fiber examination (SWGMAT)
  • Rules and regulations under the Textile Fiber Products Identification Act [FTC]
  • The textile products identification act [FTC]
  • United States standards for grades of wool {USDOA}

INTERLABORATORY REPORTS - REPORTES INTERLABORATORIALES

  • CTS Fibers analysis test nº 05-539
  • CTS Fibers analysis test nº 06-539
  • CTS Fibers analysis test nº 07-539
  • CTS Fibers analysis test nº 08-539
  • CTS Fibers analysis test nº 09-539
  • CTS Fibers analysis test nº 10-539

FIBRAS - ARTICULOS POR SUBSCRIPCION

  • A laboratory model for studying environmently dependent chemical modifications in textile cellulose (Dmitri Kouznetsov et al)
  • An abrasion machine for evaluating single fiber transfer (Patricia Annis y Randall Bresee)
  • Application of image analysis in forensic examination of textile damages {Annals of DAAAM & Proceedings}
  • ASTM D276 - 00a(2008) Standard test methods for identification of fibers in textiles
  • Automated digital analysis of fiber interferograms (E. J. Roche et al)
  • Employing glass refractive index measurement (GRIM) in fiber analysis: A simple method for evaluating the crystalinity of acrylics (Carla Marega et al)
  • Forensic analysis of acrlic fibers by pyrolysis GC/MS (Valerio Causin et al)
  • Forensic analysis of silk fibers (I. Cakir y H. Uner)
  • Forensic analysis of single fibers by raman spectroscopy (Jason Miller y Edward Bartick)
  • Infrared spectroscopy of PET fibers: Uses and limitations (A. Garton et al)
  • Is the thermal transition of cellulose of the glass type? The refractive index of cellophane (M. Wahba)
  • Methodology for detecting residual phosphoric acid in polybenzoxazole fibers (Eun Su Park et al)
  • Near-IR spectropotometric techniques for fast identification of carboxycellulose in linen fibers - A preliminary report (Dmitri Kouznetsov y Andrey Ivanov)
  • Process and bullet-resistant buffer effect of an elastic cushioning structure made of polyamide non-woven fabric and chloroprene rubber (Ching-Wen Lou et al)
  • Pyrolysis GC of wool: Part I: Detection and quanification of commercially applied agents (William Marmer et al)
  • Recently developed fibers from Kuraray America / EFT for specialty papers and nonwoven applications {EFT}
  • Resonance Raman and UV–visible spectroscopy of black dyes on textiles (Laurence C. Abbott et al) {Forensic Sci. International, 2010}
  • Spectrophotometric measurement of color in wool fabrics (F. G. Lennox)
  • The application of laser scanning confocal microscopy to the examination of hairs and textile fibers: An initial investigation (K. Paul Kirkbride y Silvana R. Tridico)
  • THM PyGC-MS of wood fragments and vegetable fibre forensic samples (Rebecca Kristensen et al)
  • Trace-fiber color discrimination by electrospray ionization mass spectrometry: A tool for the analysis of dyes extracted from submillimeter nylon fibers (Albert Tuinman et al)
  • Water absorbency by wool fibers: Hofmeister effect (Lo Nostro P. et al)
  • Wool dyeing with plant origin dyes {Global Forensic Science Today}

TRICOLOGIA - ARTICULOS POR SUBSCRIPCION

  • A comparison of macroscopic and microscopic hair color measurements and a quantification of the relationship between hair color and thickness (Michelle Vaughn et al)
  • Comparison of human hair by py-capillary column GC and GC-MS (T. O. Munson y Jeffrey Vick)
  • Development of a DNA-analytical method for the identification of animal hair fibers in textiles (Kirsten Kerkhoff et al)
  • Evidence for the formatin of 2,4-imidazolidinediones and pyrrolidino[1,2a]-3,6-piperazinediones in human hair pyrolyzates by Pyr-GC-MS-MS (T. O. Munson y D.D. Fetterolf)
  • SEM characterization and elemental analysis of hair: A tool in identification of felidae animals (M. Dahiya y S. Yadak) [Journal of Forensic Research, 2013]
  • The persistence of animal hairs in a forensic context (Adine Boehme et al)

RESOURCES

  • Hills Inc. Cross sections fibers

Tutorials - Tutoriales

  • Fibertutor [Fibersource]

WET CHEMISTRY - QUÍMICA HÚMEDA

  • A novel approach for sulfur test on viscose based materials
  • Chemical analysis of okra bast fiber (Abelmoschus esculentus) and its physico-chemical properties (Md. Shamsul y G. M. Arifuzzaman Khan)

PRESENTATIONS - PRESENTACIONES

  • Fibers {Welch Science}
  • The microscope and forensic identification of hair and fibers (James E. Girard) {Stfrancis.edu, 2008}

VIDEOS

  • Analysis of fibre dyes by capillary electrophoresis quadrupole time-of-fly mass spectrometry (Claude Roux) [Trace Evidence Symposium, 2011]
  • Comparative finished fiber analysis using LC, nano-sampling cryomicrotomy and time-of-fly MS techniques (David Hinks) [Trace Evidence Symposium, 2011]
  • Evidential value of fiber evidence (Harol Deadman) [Trace Evidence Symposium, 2011]
  • Forensic fiber analysis (Dale Purcell) [Trace Evidence Symposium, 2011]
  • Forensic fiber analysis (Edward Bartick) [Trace Evidence Symposium, 2011]
  • Forensic hair analysis review
  • Microscopic comparison of hair and fiber evidence - Amy Garrett

REVISTAS - JOURNALS

  • Digital Textile Journal
  • Forensic Chemistry
  • JASTEE - Journal of the American Society of Trace Evidence Examiners
  • JTATM - Journal of Textile and Apparel, Technology and Management
  • Mathews Journal of Forensic Research
  • Textile History
  • Textile Research Journal
  • The Journal of the Textile Institute
  • The Open Textile Journal
  • The Textile Journal

LIBROS / BOOKS

  • AATCC Technical Manual
  • Atlas of human hair. Microscopic characteristics (Robert R. Ogle y Michelle J. Fox)
  • Forensic examination of fibers (Robertsons)
  • Forensic examination of hair (James Robertson)
  • Formation and structure of human hair (Pierre Jollès et al)
  • Hair follicle (K. Morioka) {Springer, 2005}
  • Hair ID (Hans Brunner y Barbara Triggs) {CSIRO Publishing}
  • Principles of textile testing (Je Booth)
  • Structure formation in polymeric fibers (David R. Salem) {McGraw-Hill, 2005}

SITIOS DE INTERES / INTERESTING SITES

  • AATCC - American association of Textile Chemists and Colorists
  • AFMA - American Fiber Manufacturers Association
  • ASTEE - American Society of Trace Evidence Examiners
  • BISFA - The International Bureau for the Standardization of Man-Made Fibers
  • CRI - The Carpet and Rug Institute
  • Ecobyte Hair ID
  • Fabrics.net
  • Fibersource
  • Hair analysis
  • HAIRbase
  • IAMA - International Association for Microanalysis
  • IAMA Animal hair library
  • MicrolabNW Photomicrograph Gallery
  • NATMAT Group - Natural Materials and Biocomposites Research Group {University of Canterbury}
  • Project Cotton - The University of Missouri
  • SWGMAT
  • Textile Museum Journal
  • The Alpaca Blogger

MUSIC - MÚSICA

  • Canción del algodón - Gabriel Chamorro y Andrés Turco Gil
  • Como algodón - Isabelle Valdez
  • Con una falda de percal planchá - Olga Ramos
  • Cotton - Sam Baker
  • El hilo rojo - Steve Green
  • Hilo a hilo - Parranda Medio Jigo pal Kilo
  • La pollera colorá - La Sonora Dinamita
  • La ruana - La Rondalla Colombiana
  • Meine schwester heisst polyester - Oedipussi
  • Momen no hakachi-fu - Ikimono Gakari
  • Percal - Fiorentino con la orquesta de Anibal Troilo
  • Pick a bale of cotton - The Delta Skiffle Group
  • Polyester - Maximilian Hecker
  • Suave terciopelo - Greco
  • Tejido grueso - Elias Leyton
  • The cotton song - The Lighttown Skiffle Group
  • The sewing machine - Betty Hutton