000 | 08978cam a2200397 i 4500 | ||
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005 | 20221101222635.0 | ||
008 | 080303s2005 enka 101 0 eng d | ||
011 | _aBIB MATCHES WORLDCAT | ||
020 | _a0415383560 | ||
020 | _a9780415383561 | ||
035 | _a(ATU)b11294711 | ||
035 | _a(OCoLC)62870364 | ||
040 |
_aHUA _beng _erda _cHUA _dKKS _dBAKER _dBTCTA _dYDXCP _dATU |
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082 | 0 | 4 |
_a624.1834 _222 |
111 | 2 |
_aInternational Conference on Autoclaved Aerated Concrete _n(4th : _d2005 : _cLondon, England) |
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245 | 1 | 0 |
_aAutoclaved aerated concrete : _binnovation and developments : proceedings of the 4th International Conference on Autoclaved Aerated Concrete, organised by the Concrete and Masonry Research Group, and held at Kingston University-London, on 8-9 September, 2005 / _cedited by Mukesh C. Limbachiya, John J. Roberts. |
246 | 3 | _aFourth International Conference on Autoclaved Aerated Concrete. | |
246 | 3 | 0 | _aProceedings of the 4th International Conference on Autoclaved Aerated Concrete. |
246 | 3 | 0 | _a4th International Conference on Autoclaved Aerated Concrete. |
264 | 1 |
_aLondon : _bTaylor & Francis, _c[2005] |
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264 | 4 | _c©2005 | |
300 |
_axvii, 539 pages : _billustrations ; _c26 cm |
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336 |
_atext _btxt _2rdacontent |
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337 |
_aunmediated _bn _2rdamedia |
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_avolume _bnc _2rdacarrier |
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505 | 0 | 0 |
_tDevelopment of factory production control guidance for European AAC masonry units / _rC. A. Fudge and M. D. Brehme -- _tDevelopments and opportunities for AAC with modern production technology / _rW. M. van Boggelen -- _tNew developments in the AAC production process / _rT. Dietz and P. Daschner -- _tLime production for the AAC industry / _rF. Mucke -- _tMechanisms and countermeasures against cavity defectives in AAC during manufacturing / _rY. Aono, S. Shibata and F. Matsushita -- _tThe use of pulverised fuel ash for the manufacture of autoclaved aerated concrete / _rR. A. Carroll and J. E. Guest -- _tNewly developed pre-hydration process of AAC manufacturing / _rY. Aono, S. Shibata and F. Matsushita -- _tOptimal autoclaving / _rM. Haas -- _tEffect of cement characteristics on the setting behavior of autoclaved aerated concrete / _rY. Aono, S. Shibata and F. Matsushita -- _tNon-linear static analysis of tall buildings / _rS. K. Rai and J. Prasad -- _tExpansion and shrinkage behavior of green cake of autoclaved aerated concrete / _rF. Matsushita, Y. Aono and S. Shibata -- _tThe Keen-Crete plant, the Keen way to produce aircrete / _rR. Beier and R. A. de Vos -- _tAircrete autoclaves by Terruzzi Fercalx / _rM. Sbrosi and E. Barberis -- _tA fast and accurate dosing easily achieved with a clever fluidization system / _rK. Saarinen and J.-P. Bjorklund -- _tUK housing and climate change : performance evaluation using AAC / _rC. A. Fudge and J. N. Hacker -- _tSimultaneous determination of sorption isotherm and water diffusivity of autoclaved aerated concrete / _rS. Tada -- _tThe most important aspects of microstructure influencing strength of AAC / _rG. Schober -- _tDevelopments in AAC constructions to meet the UK acoustic performance requirements / _rD. J. Harris and D. Baker -- _tA study on frost resistance of autoclaved high strength aerated concrete / _rY. Hama, T. Mimori, T. Tairaku and T. Sanda -- _tDevelopment of a procedure for determining the freeze-thaw resistance of autoclaved aerated concrete / _rD. J. Harris and M. J. Robinson -- _tCarbonation of in-service autoclaved aerated concrete / _rF. Matsushita, Y. Aono and S. Shibata -- _tThe future of AAC - from a material scientist's point of view / _rM. Haas -- _tCarbonation shrinkage of autoclaved aerated concrete / _rF. Matsushita, Y. Aono and S. Shibata -- _tExperimental tests into the sustained load strength of autoclaved aerated concrete / _rE. Raue, E. Tartsch and P. Langer -- _tImprovement of carbonation resistance of autoclaved aerated concrete by water-repellant additive / _rF. Matsushita, Y. Aono and S. Shibata -- _tMicro-mechanical analysis of AAC / _rI. Kadashevich and D. Stoyan -- _tStochastic modelling of the geometrical microstructure of AAC / _rD. Stoyan and I. Kadashevich -- _tOrientation effects of shear wall on RC frames / _rS. K. Rai and J. Prasad -- _tMoisture content, absorption and movement of low density Aircrete / _rA. Ahmed, A. N. Fried, M. C. Limbachiya and J. J. Roberts -- _tStructural fire protection with autoclaved aerated concrete / _rG. Flassenberg -- _tAAC based on fly ash in strategy of sustainable development / _rG. Zapotoczna-Sytek -- _tCarbonation of AAC / _rM. Haas -- _tAircrete blockwork subjected to concentrated loading / _rN. Bright -- _tDevelopment of ASTM standards for AAC / _rF. H. Fouad, A. C. Vichare and R. E. Barnett -- _tThe compressive strength of AAC - a statistical investigation / _rS. Wolf, S. Wiegand, D. Stoyan and H. B. Walther -- _tThe proposed ACI guide for the use of AAC panels / _rF. H. Fouad, R. E. Klingner, R. E. Barnett and J. E. Tanner -- _tDesign of low-rise housing in the UK using AAC masonry / _rC. A. Fudge and G. Harding -- _tDevelopment of seismic design provisions for autoclaved aerated concrete : an overall strategy for the United States of America / _rR. E. Klingner, J. E. Tanner, J. L. Varela and R. E. Barnett -- _tThe influence of material moisture on heat conductivity of AAC / _rT. Schoch -- _tTechnical basis for US design provisions for autoclaved aerated concrete masonry / _rJ. E. Tanner, J. L. Varela, R. E. Klingner, F. H. Fouad and R. E. Barnett -- _tThe emergence of solid AAC external walls for UK construction / _rC. R. Marshall -- _tDesign examples for AAC masonry structures using US provisions / _rM. J. Robinson, R. E. Barnett, J. E. Tanner, J. L. Varela and R. E. Klingner -- _tStrength-size relationships for aircrete under compression / _rA. T. Vermeltfoort -- _tDevelopment of AAC infill blocks in beam and block floors / _rJ. Ward and D. J. Harris -- _tTests on loadbearing behavior of masonry shear walls / _rU. Schmidt, B.-G. Kang, J. Hannawald and W. Brameshuber -- _tSeismic behaviour of autoclaved aerated concrete masonry constructions / _rD. Schermer -- _tMechanical properties of Hungarian AAC elements tested under different conditions / _rZs. Jozsa and G. Juhasz -- _tFlexural strength of low density blockwork / _rA. Ahmed, A. N. Fried, M. C. Limbachiya and J. J. Roberts -- _tStrains and constraints in aircrete structures / _rT. Cornelius and G. Rasmussen -- _tAAC tongue and grooved masonry : performance evaluation / _rW. A. Ferguson and C. A. Fudge -- _tInside America / _rA. Coduto -- _tPerformance of masonry building including AAC products during the 17 August 1999 Marmara earthquake / _rZ. Celep -- _tLong-term performance of external renderings on autoclaved aerated concrete walls / _rH. Kus -- _tStandards installation methods in Japan for non-load-bearing walls made of AAC panels / _rK. Suzuki, Y. Hama, Y. Aono, S. Shibata, F. Matsushita and H. Taguchi -- _tA fundamental investigation of the composite behaviour of an AAC panel and timber joist floor system / _rK. J. Graham, K. I. Crews and S. A. Bolden -- _tThe use of AAC blocks for foundations in UK construction / _rT. Grounds and A. H. Riza -- _tThe use of polymer mesh reinforcement in AAC walls constructetd with thin layer mortar / _rI. J. Gray -- _tImpact response of autoclaved aerated concrete/FRP sandwich structures / _rN. Uddin, K. V. Shelar and F. H. Fouad -- _tMortar for low density aircrete applications / _rA. N. Fried, A. Ahmed, M. C. Limbachiya and J. J. Roberts -- _tBed joint reinforced AAC masonry applications and developments / _rP. Timperman -- _tBuilding energy consumption and thermal performance of the autoclaved aerated concrete (AAC) exterior walls / _rR. Lindberg and V. Leivo -- _tEnvironment product declaration of autoclaved aerated concrete / _rH. B. Walther -- _tSustainability in autoclaved aerated concrete (AAC) construction / _rE. Nunez, S. A. Nunez and F. H. Fouad. |
520 | _a"Autoclaved Aerated Concrete (AAC), known in the UK as Aircrete, has gained world-wide recognition as a high quality, innovative construction material which has been extensively used in a wide range of residential, commercial and industrial buildings. Recently there have been a number of innovative developments in AAC manufacturing processes, product properties and construction methods, resulting in enhanced performance to meet increasingly stringent building design requirements whilst ensuring environmental compliance. Indeed, AAC products have shown potential for being a universal material that can underwrite commercial, social, and sustainable development."--Publisher. | ||
588 | _aMachine converted from AACR2 source record. | ||
650 | 0 |
_aLightweight concrete _vCongresses _9733654 |
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700 | 1 |
_aLimbachiya, Mukesh C., _eeditor. _91050993 |
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700 | 1 |
_aRoberts, John J., _eeditor. _91065558 |
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907 |
_a.b11294711 _b06-09-21 _c27-10-15 |
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