Carbonless copy paper

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Carbonless copy paper, non-carbon copy paper, or NCR paper is an alternative to carbon paper, used to make a copy of an original, handwritten (or mechanically typed) document without the use of any electronics. The process was invented by chemists Lowell Schleicher and Barry Green, working for the NCR Corporation, as a biodegradable, stain-free alternative to carbon paper.[1] Early product literature piggybacked on NCR's corporate name by calling the paper No Carbon Required paper.

Operation

Carbonless copy paper works in a fairly simple way. It consists of sheets of paper that are coated with micro-encapsulated dye or ink and/or a reactive clay.

The back of the first sheet is coated with micro-encapsulated dye. The lowermost sheet is coated on the top surface with a clay that quickly reacts with the dye to form a permanent mark. Any intermediate sheets are coated with clay on top and dye on the bottom.

When someone writes on the sheets, the pressure from the point of the writing instrument causes the micro-capsules to break and spill their dye. Since the capsules are so small, the print obtained is very accurate.

Similarly, the paper can be used in dot-matrix and impact printers, where the striking head releases dye to interact with the clay.

Carbonless copy paper was also available in a self-contained version that had both the ink and the clay on the same side of the paper.

Dyes and chemicals

The first dye used commercially in this application was crystal violet lactone, which is still widely used today. Other dyes and supporting chemicals used are PTSMH (p-toluene sulfinate of Michler's hydrol), TMA (trimellitic anhydride), phenol-formaldehyde resins, azo dyes, DIPN (diisopropyl naphthalenes), formaldehyde isocyanates, hydrocarbon-based solvents, polycyclic aromatic hydrocarbons, polyoxypropylene diamine, epoxy resins, aliphatic isocyanates, Bisphenol A, diethylene triamine, and others. The dyes in carbonless copy papers may cause contact dermatitis in sensitive persons.

Health and environmental concerns

Until the 1970s, when the use of polychlorinated biphenyls (PCBs) was banned due to health and environmental concerns, PCBs were used as a transfer agent in carbonless copy paper.[2][3][4] PCBs are readily transferred to human skin during handling of such papers, and it is difficult to achieve decontamination by ordinary washing with soap and water.[3] In Japan, carbonless copy paper is still treated as a PCB-contaminated waste.[5]

Exposure to certain types of carbonless copy paper or its components has resulted, under some conditions, in mild to moderate symptoms of skin irritation and irritation of the mucosal membranes of the eyes and upper respiratory tract. However, a 2000 review found no irritation or sensitization on contact with carbonless copy paper produced after 1987. [6] In most cases, good industrial hygiene and work practices should be adequate to reduce or eliminate symptoms. These include adequate ventilation, humidity, and temperature controls; proper housekeeping; minimal hand-to-mouth and hand-to-eye contact; and periodic cleansing of hands.[7]

The University of Florida has found that chronic exposure to carbonless copy paper can be hazardous to a person's health. Scientists[who?] found higher rates of sick leave and illness complaints at the office using large amounts of carbonless copy paper. Furthermore, a study published in Environmental Health Perspectives provides new evidence that exposure to paper dust and carbonless copy paper in office work are related to increased risk of adult-onset asthma.[8]

The average carbonless copy paper contains a high concentration of Bisphenol A, an endocrine disruptor.[9][10][11][12][13]

In 2001 three employees filed a lawsuit blaming carbonless copy paper for their cases of breast cancer.[14]

See also

Notes

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References

External links

it:Carta chimica

ja:ノーカーボン紙

zh:無碳複寫紙
  1. http://www.appletonideas.com/pdf/Lowell_Schleicher_Dies.pdf
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  4. "NPL Site Narrative for Fox River NRDA/PCB Releases". United States Environmental Protection Agency. Retrieved 2009-06-24. 
  5. "Invitation of proposals concerning to PCB contaminated solid wastes treatment technologies". Hyogo Prefectural Environment Create Center Public Corporation. 2003-01-27. Retrieved 2008-02-20. 
  6. Graves CG, Matanoski GM, Tardiff RG (2000). "Carbonless copy paper and workplace safety: a review". Regul Toxicol Pharmacol. 32 (1): 99–117. doi:10.1006/rtph.2000.1408. PMID 11029273.  More than one of |number= and |issue= specified (help)
  7. "National Institute for Occupational Safety and Health - Carbonless Copy Paper". United States National Institute for Occupational Safety and Health. Retrieved 2007-10-13. 
  8. Lua error in package.lua at line 80: module 'Module:Citation/CS1/Suggestions' not found.
  9. Fukazawa, H.; Hoshino, K.; Shiozawa, T.; Matsushita, H.; Terao, Y. (2001). "Identification and quantification of chlorinated bisphenol a in wastewater from wastepaper recycling plants". Chemosphere. 44 (5): 973–979. doi:10.1016/S0045-6535(00)00507-5. PMID 11513431.  edit
  10. Raloff, Janet (2009-10-07). "Concerned About BPA: Check Your Receipts". Society for Science and the Public. Retrieved 2009-10-07. 
  11. Begley, Sharon (Jun 29, 2009). "When Studies Collide". Newsweek. Retrieved 2009-10-09. 
  12. Stahlhut; Welshons, W.; Swan, S. (2009). "Bisphenol a data in NHANES suggest longer than expected half-life, substantial nonfood exposure, or both". Environmental health perspectives. 117 (5): 784–789. doi:10.1289/ehp.0800376. PMC 2685842Freely accessible. PMID 19479022.  edit
  13. Takemura; Ma, J.; Sayama, K.; Terao, Y.; Zhu, B.; Shimoi, K. (2005). "In vitro and in vivo estrogenic activity of chlorinated derivatives of bisphenol A". Toxicology. 207 (2): 215–221. doi:10.1016/j.tox.2004.09.015. PMID 15596252.  edit
  14. "Co-workers' rare cancer a mystery". December 14, 2001. Retrieved 29 November 2009.