Advanced search
Publication Cover
Inhalation Toxicology
International Forum for Respiratory Research
Volume 13, 2001 - Issue 12
Submit an article Journal homepage
17
Views
3
CrossRef citations to date
0
Altmetric
Research Article

MATERIAL PROPERTIES OF MMVFs AND THEIR TIME-DEPENDENT FAILURE IN LUNG ENVIRONMENTS

Martin A. Moore The Morgan Crucible Company plc, Stourport-on-Severn, England Robert C.
,
Robert C. Brown The Morgan Crucible Company plc, Stourport-on-Severn, England Robert C.
&
Geoff Pigott The Morgan Crucible Company plc, Stourport-on-Severn, England Robert C.
Pages 1117-1149 | Published online: 01 Oct 2008

  • Ahmed, A. A., and Yousef, I. M. 1997. Attack on soda-lime glass bottles by acetic, citric and oxalic acids. Glastech. Ber. 70:76-85.
  • Alexander, I. C. and Jubb, G. A. 1997. Development of a soluble high-temperature insulation fibre. Glastech. Ber. 70:382-388.
  • Bacon, F. R., and Ragon, F. C. 1959. Promotion of attack on glass and silica by citrate and other anions in neutral solution. J. Am. Ceram. Soc. 42:199-205.
  • Bellmann, B., and Muhle, H. 1995. Biopersistence of various types of mineral fibres in the rat lung after intratracheal application. Dortmund: Bundesanstalt für Arbeitsschutz.
  • Bernstein, D. M., Morscheidt, C, Tiesler, H., Grimm, H.-G., Thevenaz, P., and Teichert, U. 1995. Evaluation of the biopersistence of commercial and experimental fibers following inhalation. lnhal. Toxicol. 7:1031-1035.
  • Bernstein, D. M., Morscheidt, C, Grimm, H.-G., Thevenaz, P., and Teichert, U. 1996. The evaluation of soluble fibers using the inhalation biopersistence model, a nine fiber comparison, lnhal. Toxicol. 8:345-385.
  • Boksay, Z., and Bouquet, G. 1980. The pH dependence and an electrochemical interpretation of the dissolution rate of a silicate glass network. Phys. Chem. Glasses 21:110-113.
  • Bradt, R. C, Hasselman, D. P. H., and Lange, F. F. 1978. Fracture mechanics of ceramics, vol. 4. New York: Plenum Press.
  • Bunker, B. C. 1994. Molecular mechanisms for corrosion of silica and silicate glasses. J. Non-Cryst. Solids. 179:300-308.
  • Christensen, V. R., Lund Jensen, S., Guldberg, M., and Kamstrup, 0.1994. Effect of chemical composition of man-made vitreous fibers on the rate of dissolution in vitro at different pHs. Environ. Health Perspect. 102(suppl.5):83-86.
  • Clark, D. E., and Zoitos, B. K. 1992. Corrosion of glass, ceramics and ceramic superconductors. New Jersey: Noyes.
  • Clark, D. E., Pantano, C. G., and Hench, L. L. 1979. Corrosion of glass. New York: Books for Industry and the Glass Industry.
  • Collier, C. G., Kamstrup, O., Morris, K. J., Applin, R. A., and Vatter, I. A. 1997. lung clearance of experimental man-made mineral fibres, preliminary data on the effect of fibre length. Ann. Occup. Hyg. 41(suppl. 1):320-326.
  • Creutzenberg, O., Bellmann, B., and Muhle, H. 1997. Biopersistence and bronchoalveolar lavage investigations in rats after a subacute inhalation of various man-made mineral fibres. Ann. Occup. Hyg. 41(suppl.1):213-218.
  • Das, C. R. 1981. Chemical durability of sodium silicate glasses containing Al2O3, and ZrO2. J Am. Ceram. Soc. 64:188-193.
  • Das, C. R., and Douglas, R. W. 1967. Studies on the reaction between water and glass. Part 3. Phys. Chem. Glasses 8:178-184.
  • de Bethune, A. J., and Swendeman Loud, N. A. 1968. Standard aqueous electrode potentials and temperature coefficients at 250C. Houston: National Association of Corrosion Engineers.
  • De Meringo, A., Lafon, F., Furtak, H., and Hanton, D. 2000. Chemical indexes and in-vitro solubility. Glastech. Ber. 73:79-87.
  • Dilmore, M. F., Clark, D. E., and Hench, L. L. 1978. Aqueous corrosion of lithia-alumina-silicate glasses. Ceram. Bull. 57:1040-1048.
  • Douglas, R. W., and El-Shamy, T. M. 1967. Reactions of glasses with aqueous solutions. J. Am. Ceram. Soc. 50:1-8.
  • Eastes, W., Morris, K. J., Morgan, A., Launder, K. A., Collier, C. G., Davis, J. A., Mattson, S. M., and Hadley, J. G. 1995. Dissolution of glass fibers in the rat lung following intratracheal instillation. lnhal. Toxicol. 7:197-213.
  • Eastes, W., Potter, R. M., and Hadley, J. G. 2000. Estimating in-vitro glass fiber dissolution rate from composition, lnhal. Toxicol. 12:269-280.
  • El-Shamy, T. M., Lewins, J., and Douglas, R.W. 1972. The dependence on the pH of the decomposition of glasses by aqueous solutions. Class Technol. 13:81-87.
  • Emsberger, F. M. 1959. Attack of glass by chelating agents, J. Am. Ceram. Soc. 42:373-375.
  • European Chemicals Bureau. 1997. Analysis of IT and INH biopersistence data. Report ECB/TM/ 11(97). lspra, Italy: Environment Institute, European Chemicals Bureau.
  • Foissy, A., and Persello, J. 1998. Surface group ionization on silicas. In The surface properties of silicas, ed. A. P. Legrand, pp. 365-414. Chichester: John Wiley & Sons Ltd.
  • Freiman, S. W. 1988. Brittle fracture behaviour of ceramics. Ceram. Bull. 67:392-402.
  • Freiman, S. W., Baker, T. L., and Wachtman, J. B. 1985. A computerized fracture mechanics data base for oxide glasses. Am. Ceram. Soc. Bull. 64:1452-1455.
  • Gamble, J. L. 1950. Chemical anatomy, physiology and pathology of extracellular fluid. Cambridge, MA: Harvard University Press.
  • Gehrke, E., Ullner, C., and Hahnert, M. 1990. Effect of corrosive media on crack growth of model glasses and commercial silicate glasses. Glastech. Ber. 63:255-265.
  • Gehrke, E., Ullner, C, and Hahnert, M. 1991. Fatigue limit and crack arrest in alkali-containing silicate glasses. J. Mater. Sci. 26:5445-5455.
  • Guldberg, M., Christensen, V. R., and Lund Jensen, S. 1996. Biodurability of MMMFs workshop. Hannover: Fraunhofer ITA.
  • lyengar, G. V., Kollmer, W. E., and Bowen, H. J. M. 1978. The elemental composition of human tissues and body fluids--A compilation of values for adults. New York: Verlag Chemie.
  • Jantzen, C. M. 1992. Nuclear waste glass durability: 1. Predicting environmental response from thermodynamic (Pourbaix) diagrams. J. Am. Ceram. Soc. 75:2433-2448.
  • Jantzen, C. M., and Plodinec, M. J. 1984. Thermodynamic model of natural, medieval and nuclear waste glass durability.;. Non-Cryst. Solids 67:207-223.
  • Kurkjian, C. R., and Prindle, W. R. 1998. Perspectives on the history of glass composition. J. Am. Ceram. Soc. 81:795-813.
  • Lasaga, A. C. 1984. Chemical kinetics of water-rock interactions. J, Geophys. Res. 89:4009-4025.
  • Maxim, L. D., Mast, R. W., Utell, M. J., Yu, C. P., Boymel, P. M., Zoitos, B. K., and Cason, J. E. 1999. Hazard assessment and risk analysis of two new synthetic vitreous fibers. Regul. Toxicol. Pharmacol. 30:54-74.
  • Michalske, T. A., and Bunker, B. C. 1993. A chemical kinetics model for glass fracture. /. Am. Ceram. Soc. 76:2613-2618.
  • Moolgavkar, S. H., Luebeck, E. G., Turim, J., and Brown, R. C. 2000. Lung cancer risk associated with exposure to man-made fibers. Drug Chem. Toxicol. 23(1) :223-242.
  • Moore, M. A., Hanna, L. M., Grumm, D.M., Turnham, P., Yu, C.P., and Jubb, G.A. 1997. Biopersistence of insulation glass fibres. Ann. Occup. Hyg. 41 (suppl. 1):312-319.
  • Onoda, G. Y., and Brown, S. D. 1970. Low-silica glasses based on calcium aluminates. J. Am. Ceram. Soc. 53:311-316.
  • Ostojic, P. 1995. Stress enhanced environmental corrosion and lifetime prediction modelling in silica optical fibres J. Mater. Sd. 30:3011-3023.
  • Paul, A. 1977. Chemical durability of glasses; a thermodynamic approach. J. Mater. Sci. 12:2246-2268.
  • Paul, A., and Zaman, M. S. 1978. The relative influences of Al2O3 and Fe2O3 on the chemical durability of silicate glasses at different pH values.J. Mater. Sd. 13:1499-1502.
  • Perera, G., and Doremus, R. H. 1991. Dissolution rates of commercial soda-lime and Pyrex borosilicate glasses: Influence of pH. J. Am. Ceram. Soc. 74:1554-1558.
  • Potter, R., and Mattson, S. 1991. Glass fiber dissolution in physiological saline solution. Glastech. Ber. 64:16-28.
  • Pourbaix, M. 1974. Atlas of chemical equilibria in aqueous solutions. Houston, TX: National Association of Corrosion Engineers.
  • Rybarikova, L., and Kourilova, I. 1996. Corrosion of silica glass by aqueous solutions of organic compounds. Ceramics-Silikaty 40(3):94-98.
  • Rybarikova, L., and Kourilova, I. 1997. Corrosion of multicomponent glasses by aqueous solutions of organic compounds. Ceramics-Silikaty 41 (2):61-66.
  • Schmitz, G. K., and Metcalfe, A. G. 1966. Stress corrosion of E-glass fibers. I & EC Prod. R&D 5(1):1-8.
  • Scholze, H. 1988. Durability investigations on siliceous man-made mineral fibres: A critical review. Glastech. Ber. 61 (6):161-171.
  • Sglavo, V. M., and Green, D. J. 1996. Threshold stress intensity factor in soda-lime glass by interrupted static fatigue test. J. Eur. Ceram. Soc. 16:645-651.
  • Smets, B. M. J., and Tholen, M. G. W. 1984. Leaching of glasses with molar composition 2ONa2O*1OrO*xAL2O3*(70-x)SiO2. J. Am. Ceram. Soc. 67:281-284.
  • Stevels, J. M. 1948. Progress in the theory of the physical properties of glass. New York: Elsevier.
  • Tran, C. L, Jones, A. D., Cullen, R. T., and Donaldson, K. 1997. Overloading of clearance of particles and fibres. Ann. Occup. Hyg. 41 (suppl. 1):237-243.
  • Weyl, W. A. 1947. Some practical aspects of the surface chemistry of glass-Part IV. Class Ind. 28: 408-412,428-432.
  • Weyl, W. A. 1951. The significance of the co-ordination requirements of the cations in the constitution of glass. I. Basic concepts and the constitution of alkali silicate glasses. J. Soc. Class Technol. 35:421-486.
  • Weyl, W. A., and Marboe, E. C. 1967. The constitution of glasses. New York. Interscience.
  • Wiederhorn, S. M. 1972. A chemical interpretation of static fatigue. 7. Am. Ceram. Soc. 55:81-85.
  • Wiederhorn, S. M., and BoIz, L. H. 1970. Stress corrosion and static fatigue of glass. J. Am. Ceram. Soc. 53:543-548.
  • Wiederhorn, S. M., and Johnson, H. 1973. Effect of electrolyte pH on crack propagation in glass. J. Am. Ceram. Soc. 56:192-197.
  • World Health Organization. 1984. Biological effects of man-made mineral fibres, Vol. 2. Copenhagen: WHO.
  • Zoitos, B. K., Atkinson, R. E., and Olson, J. 1996a. International Patent Application PCT/US96/17494.
  • Zoitos, B. K., Boymel, P. M., Olson, J. R., Archer, E. R., DeMeringo, A., Thelohan, S., Bauer, J., Law, B., Christensen, V. R., Guldberg, M., Koenig, A. R., and Perander, M. 1996b. Biodurability of MMMFs workshop. Hannover: Fraunhofer ITA.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.