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Journal Article

NISNITE, Ni 3 Sn, A NEW NICKEL MINERAL SPECIES FROM THE JEFFREY MINE, ASBESTOS, QUEBEC Available to Purchase

Ralph Rowe, Joel D. Grice, Glenn Poirier, Chris J. Stanley, László Horváth
Published: 01 April 2011
The Canadian Mineralogist (2011) 49 (2): 651–656.
DOI: https://doi.org/10.3749/canmin.49.2.651
...Ralph Rowe; Joel D. Grice; Glenn Poirier; Chris J. Stanley; László Horváth Abstract Nisnite, ideally Ni 3 Sn, was found during a re-examination of heazlewoodite crystals in rodingite samples from the Jeffrey mine, Asbestos, Quebec. It occurs as bronze-colored metallic, striated, blocky...
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View PDF for article title, NISNITE, Ni 3 Sn, A NEW NICKEL MINERAL SPECIES FROM THE <span class="search-highlight">JEFFREY</span> <span class="search-highlight">MINE</span>, ASBESTOS, QUEBEC
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Journal Article

SINGLE-CRYSTAL EPR STUDY OF Fe 3+ AND VO 2+ IN PREHNITE FROM THE JEFFREY MINE, ASBESTOS, QUEBEC Available to Purchase

Yuanming Pan, Mao Mao, Jinru Lin
Published: 01 August 2009
The Canadian Mineralogist (2009) 47 (4): 933–945.
DOI: https://doi.org/10.3749/canmin.47.4.933
...Yuanming Pan; Mao Mao; Jinru Lin Abstract Prehnite from the Jeffrey mine, in Asbestos, Quebec, has been investigated by optical microscopy, electron-microprobe analysis, single-crystal X-ray-diffraction (XRD) analysis, and electron paramagnetic resonance (EPR) spectroscopy. Electron-microprobe...
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View PDF for article title, SINGLE-CRYSTAL EPR STUDY OF Fe 3+ AND VO 2+ IN PREHNITE FROM THE <span class="search-highlight">JEFFREY</span> <span class="search-highlight">MINE</span>, ASBESTOS, QUEBEC
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Journal Article

Growth structure and crystal symmetry of grossular garnets from the Jeffrey Mine, Asbestos, Quebec, Canada Available to Purchase

Mizuhiko Akizuki
Published: 01 August 1989
American Mineralogist (1989) 74 (7-8): 859–864.
...Mizuhiko Akizuki Abstract Birefringent, orange grossular garnets from the Jeffrey mine, Asbestos, Quebec, Canada, have noncubic ordered arrangements of the Al 3+ , Fe 3+ , and/or OH − ions and rhombic growth hillock with four vicinal faces on the (110) face. The surface features correspond...
View PDF for article title, Growth structure and crystal symmetry of grossular garnets from the <span class="search-highlight">Jeffrey</span> <span class="search-highlight">Mine</span>, Asbestos, Quebec, Canada
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Journal Article

Spertiniite, Cu(OH) 2 , a new mineral from the Jeffrey Mine, Quebec Available to Purchase

J. D. Grice, E. Gasparrini
Published: 01 May 1981
The Canadian Mineralogist (1981) 19 (2): 337–340.
View PDF for article title, Spertiniite, Cu(OH) 2 , a new mineral from the <span class="search-highlight">Jeffrey</span> <span class="search-highlight">Mine</span>, Quebec
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Journal Article

Rodingitization of granite and serpentinite in the Jeffrey Mine, Asbestos, Quebec Available to Purchase

R. P. Wares, R. F. Martin
Published: 01 May 1980
The Canadian Mineralogist (1980) 18 (2): 231–240.
View PDF for article title, Rodingitization of granite and serpentinite in the <span class="search-highlight">Jeffrey</span> <span class="search-highlight">Mine</span>, Asbestos, Quebec
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COMPOSITIONS OF PREHNITE FROM THE JEFFREY MINE, ASBESTOS, QUEBEC Available to Purchase

Published: 01 August 2009
TABLE 1. COMPOSITIONS OF PREHNITE FROM THE JEFFREY MINE, ASBESTOS, QUEBEC
Image
Powder EPR spectrum of prehnite from the Jeffrey mine, measured at 290 K and a microwave frequency of 9.3835 GHz. Also shown for comparison is a simulated spectrum of the dominant Fe3+ center (I). Additional peaks at ~4.4 and 4.2 (marked) belong to the weak Fe3+ centers (Table 5).

Powder EPR spectrum of prehnite from the Jeffrey mine, measured at 290 K an... Available to Purchase

Published: 01 August 2009
F ig . 6. Powder EPR spectrum of prehnite from the Jeffrey mine, measured at 290 K and a microwave frequency of 9.3835 GHz. Also shown for comparison is a simulated spectrum of the dominant Fe 3+ center (I). Additional peaks at ~4.4 and 4.2 (marked) belong to the weak Fe 3+ centers ( Table 5 ).
Book Chapter

Ultramafic-Hosted Asbestos Available to Purchase

Author(s)
J.M. Duke
Book: Geology of Canadian Mineral Deposit Types
Series: DNAG, Geology of North America
Publisher: Geological Society of America
Published: 01 January 1995
DOI: 10.1130/DNAG-GNA-P1.263
EISBN: 9780813754680
... either mass fibre deposits in serpentinitesor from serpentinized dolomites. This section deals only with deposits of chrysotile asbestos in serpentinized ultramafic rocks. The most important deposits in Canada include the Jeffrey mine at Asbestos, Quebec; the Bell-King-Beaver deposit at Thetford Mines...
Abstract
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Abstract “Asbestos” is the general term applied to fibrous silicate minerals which are commercially valuable because they are resistant to heat and chemical attack and exhibit high tensile strength. Chrysotile is by far the most important asbestos mineral, accounting for more than 95% of consumption. The balance is made up by asbestiform varieties of amphibole, including riebeckite (variety crocidolite), cummingtonite (variety amosite), anthophyllite, tremolite, and actinolite. Almost all chrysotile is mined from vein deposits in serpentinized ultramafic rocks. A small amount is derived from either mass fibre deposits in serpentinitesor from serpentinized dolomites. This section deals only with deposits of chrysotile asbestos in serpentinized ultramafic rocks. The most important deposits in Canada include the Jeffrey mine at Asbestos, Quebec; the Bell-King-Beaver deposit at Thetford Mines, Quebec; the British Canadian and Black Lake mines at Black Lake, Quebec; the Asbestos Hill deposit in the Ungava region of Quebec; the Advocate mine at Baie Verte, Newfoundland; the Cassiar mine in British Columbia; and the Clinton Creek mine in Yukon Territory (Fig. 11-1). Important foreign deposits include Dzhetygara in Kazakhstan; Bazhenovo in Russia; Msauli in the Republic of South Africa; Havelock in Swaziland; Mang'ai in Qinghai, China; and Cana Brava in Goias, Brazil.

Journal Article

Single-crystal EPR and ENDOR study of an Al—O − center in prehnite: implications for aluminum-associated oxyradicals in layer silicates Available to Purchase

Mao Mao, Mark J. Nilges, Yuanming Pan
Published: 01 June 2010
European Journal of Mineralogy (2010) 22 (3): 381–392.
DOI: https://doi.org/10.1127/0935-1221/2010/0022-2023
...Mao Mao; Mark J. Nilges; Yuanming Pan Abstract Single-crystal electron paramagnetic resonance (EPR) spectra of gamma-ray-irradiated prehnite (Jeffrey mine, Quebec, Canada) measured at 298 and 160 K reveal an aluminum-associated oxygen hole center (Al—O − ). Spin Hamiltonian parameters g and A ( 27...
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View PDF for article title, Single-crystal EPR and ENDOR study of an Al—O − center in prehnite: implications for aluminum-associated oxyradicals in layer silicates
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Image
[001] zone-axis HRTEM image of the mosaic microstructure of enstatite (en) in a bastite. Incipient and diffuse alteration to talc (0.9 nm thick layers – tc) and serpentine (0.7 nm thick layers – serp) occurs via isolated phyllosilicate layers (arrows). Jeffrey Mine, Asbestos, Québec, Canada.

[001] zone-axis HRTEM image of the mosaic microstructure of enstatite (en) ... Available to Purchase

Published: 01 October 2002
F ig . 6. [001] zone-axis HRTEM image of the mosaic microstructure of enstatite (en) in a bastite. Incipient and diffuse alteration to talc (0.9 nm thick layers – tc) and serpentine (0.7 nm thick layers – serp) occurs via isolated phyllosilicate layers (arrows). Jeffrey Mine, Asbestos, Québec
Image
TEM image of the cross-section of a grossly fibrous picrolite. Black arrows mark pillars of an admixture of chrysotile and 15-sectored polygonal serpentine fibres parallel to the fibre axis. The white arrow points to one of the overlong PS fibrils cross-linking those pillars. Jeffrey Mine, Asbestos, Québec, Canada.

TEM image of the cross-section of a grossly fibrous picrolite. Black arrows... Available to Purchase

Published: 01 October 2002
F ig . 14. TEM image of the cross-section of a grossly fibrous picrolite. Black arrows mark pillars of an admixture of chrysotile and 15-sectored polygonal serpentine fibres parallel to the fibre axis. The white arrow points to one of the overlong PS fibrils cross-linking those pillars. Jeffrey
Image
[001] zone-axis TEM image of a more bastitized enstatite compared to Fig. 7. Easy serpentinization occurs along both {110} cleavage planes of the orthopyroxene. Flat, lizardite-like, serpentine forms in narrow spaces whereas rolled chrysotile curls nucleate into more open voids. Jeffrey Mine, Asbestos, Québec, Canada.

[001] zone-axis TEM image of a more bastitized enstatite compared to Fig. 7... Available to Purchase

Published: 01 October 2002
. Jeffrey Mine, Asbestos, Québec, Canada.
Image
TEM image of the cross-section of a composite fibre made of intergrown chrysotile + polygonal serpentine (chr + PS) and calcite (ca) - ‘fibrous ophicalcite’. [100]chr//&lt;110&gt;ca//fibre axis. Note that ‘external overgrowths’ on chrysotile tubules are systematically orientated towards calcite. The rounded edges of the calcite single crystal adds some further support for the conclusion that chrysotile developed at the expense of calcite. Jeffrey Mine, Asbestos, Québec, Canada.

TEM image of the cross-section of a composite fibre made of intergrown chry... Available to Purchase

Published: 01 October 2002
towards calcite. The rounded edges of the calcite single crystal adds some further support for the conclusion that chrysotile developed at the expense of calcite. Jeffrey Mine, Asbestos, Québec, Canada.
Journal Article

Performance Review of the Global Seismographic Network for the Sumatra-Andaman Megathrust Earthquake Available to Purchase

Jeffrey Park, Rhett Butler, Kent Anderson, Jonathan Berger, Peter Davis, Harley Benz, Charles R. Hutt, Charles S. McCreery, Tim Ahern, Goran Ekström, Kent Anderson, Richard Aster
Published: 01 May 2005
Seismological Research Letters (2005) 76 (3): 331–343.
DOI: https://doi.org/10.1785/gssrl.76.3.331
...Jeffrey Park; Rhett Butler; Kent Anderson; Jonathan Berger; Peter Davis; Harley Benz; Charles R. Hutt; Charles S. McCreery; Tim Ahern; Goran Ekström; Kent Anderson; Richard Aster The earthquake itself posed practical impediments to a rapid and accurate assessment of its true size. Its primary...
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Low-magnification HRTEM bright-field image of cross-sections of two regular 15-sector fibrils of polygonal serpentine (15-PS) seen along the [100] axis, and surrounded by chrysotile fibers. The bottom-right PS is built up of a two-layer polytype, whereas the one in the upper left mixes two-layer and one-layer stackings. Arrowheads mark stacking faults. “Picrolite” from the Jeffrey mine, Québec (JEOL 3010).

Low-magnification HRTEM bright-field image of cross-sections of two regular... Available to Purchase

Published: 01 April 2005
two-layer and one-layer stackings. Arrowheads mark stacking faults. “Picrolite” from the Jeffrey mine, Québec (JEOL 3010).
Journal Article

Implications of hydroxyl-oxygen juxtaposition in layer silicates Available to Purchase

Rodney Tettenhorst, Robert C. McGuire
Published: 01 June 1970
American Mineralogist (1970) 55 (5-6): 735–741.
View PDF for article title, Implications of hydroxyl-oxygen juxtaposition in layer silicates
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HRTEM structure image of the waves of an m = 14 antigorite from Jeffrey Mine (Québec, Canada), seen down the [010] axis. Mg row positions decorate a smooth wave. The disrupted wave of Si row positions includes a “normal” jump of Si atoms (black arrow) at the first reversal, and a “gradual transition” (elliptical enclosure) at the second reversal. Note also the abnormally equal number of Si rows and Mg rows along the modulation repeat. Fourier Transform processed image.

HRTEM structure image of the waves of an m = 14 antigorite from Jeffrey M... Available to Purchase

Published: 01 May 2010
F igure 8. HRTEM structure image of the waves of an m = 14 antigorite from Jeffrey Mine (Québec, Canada), seen down the [010] axis. Mg row positions decorate a smooth wave. The disrupted wave of Si row positions includes a “normal” jump of Si atoms (black arrow) at the first reversal
Image
Photomicrographs of serpentine minerals. (A) Lizardite pseudomorphing olivine with hourglass and mesh textures in plane-polarized light. The sample was collected in the Northern Serpentinite Belt in the Dominican Republic. Courtesy of Benoit Saumur (B) The same as (A) under crossed polarizers. (C) Cross section of a chrysotile “crack-seal” vein with parallel growth banding (crossed polarizers). Serpentinite from the Jeffrey Mine, Québec, Canada. (D) Tabular, interlocking texture of antigorite (crossed polarizers). Serpentinite from the Piémont zone, Western Alps, Italy.

Photomicrographs of serpentine minerals. ( A ) Lizardite pseudomorphing oli... Available to Purchase

Published: 01 April 2013
crossed polarizers. ( C ) Cross section of a chrysotile “crack-seal” vein with parallel growth banding (crossed polarizers). Serpentinite from the Jeffrey Mine, Québec, Canada. ( D ) Tabular, interlocking texture of antigorite (crossed polarizers). Serpentinite from the Piémont zone, Western Alps, Italy.
Image
HRTEM two-dimensional images of three consecutive sectors of polygonal serpentines with two-layer polytypes. The stacking sequences of each sector are drawn; their power spectrum derived from FFT of portions of the HR image are shown as insets underneath. Arrowheads point to the same stacking fault crossing consecutive sectors. Note the changes of direct and reciprocal unit-cells when going from one sector to the next one (see text for detailed discussion). a) A 15-sector PS. “Picrolite” from the Jeffrey mine, Québec. Raw image. JEOL 3010. b) A 30-sector PS. La Carrade quarry, Var, France. Raw image. JEOL 4000ex.

HRTEM two-dimensional images of three consecutive sectors of polygonal serp... Available to Purchase

Published: 01 April 2005
stacking fault crossing consecutive sectors. Note the changes of direct and reciprocal unit-cells when going from one sector to the next one (see text for detailed discussion). a) A 15-sector PS. “Picrolite” from the Jeffrey mine, Québec. Raw image. JEOL 3010. b) A 30-sector PS. La Carrade quarry, Var
Image
Diopside (di) exsolution lamellae in enstatite (en) viewed by HRTEM along [001]di,en. (a) The semi-coherent interface is occupied by combined ‘dry’ dislocations. (b) Mixed-chain-width nano-domains of biopyribole material have nucleated onto the dislocations. The combination of dislocation and interface steps (disinclinations) occurs at tapered lamellae. The alternate curvature of the interface between successive dislocations might be attributed to the interplay between the elastic strain and the interface energy. Note that some double-chain material connects ‘wetted’ dislocation pairs across the lamella. Such polysome defects are expected to relieve part of the interface lattice misfit. (a and b) from Jeffrey Mine, Asbestos, Québec, Canada.

Diopside (di) exsolution lamellae in enstatite (en) viewed by HRTEM along [... Available to Purchase

Published: 01 October 2002
pairs across the lamella. Such polysome defects are expected to relieve part of the interface lattice misfit. ( a and b ) from Jeffrey Mine, Asbestos, Québec, Canada.