TERVISESPORDIKESKUS
VAADE 1 - 4, M1:50
4,893
4,325
TERVISESPORDIKESKUS LIGE 2 - 2, M1:50 4,468 3 3,705 3 1 1 4 4 2,500 2,000 2,000 2,000 1,000 + 0,00 0,000 - 2 -0,560
TERVISESPORDIKESKUS LIGE 1 - 1, M1:50 +4,950 3 +4,325 +3,995 1 1 3 2,820 +2,970 +2,565 +2,000 +2,000
2 TERVISESPORDIKESKUS B C D E PLAAN, M1:50 375 4595 2800 2230 375
TERVISESPORDIKESKUS KONSTRUKTIIVNE SKEEM LIGE, M1:50 Profiilplekk +4,325 +3,995 Poorbetoonist Liimpuittalad sillus +2,970 Poorbetoonist sillus +2,565 +2,000 +2,000 +1,900
TERVISESPORDIKESKUS KONSTRUKTIIVNE SKEEM 2 PLAAN, M1:50 B C D E 375 4595 2800 2230 375 10375 375 7320 150 2155 375 375 375 1
TERVISESPORDIKESKUS SLM 1, M1:20 V~LISSEIN PRAND PINNASEL Vrvitud krohv 10mm Klinkerplaat paigaldussegul 10mm AEROC EcoTerm 375mm Lihvitud betoonplaat 100mm Vrvitud krohv 10mm Vahtpolstreen 100mm 375 Tihendatud killustikalus 200mm + 0,00 - 510 -0,560 750
TERVISESPORDIKESKUS SLM 2, M1:20 KATUSLAGI 470 20 Profiilplekk 18mm Roovlauad 38mm Plekist korstnaris Distantsliist 10mm Aluskate 0,1mm Liimpuittalad 400mm Mineraalvill 300mm Roovlauad 20mm Kipslagi 13mm 250 Taavi Tammekivi EAEI - 33, 092583 [Academic use only]
Chapter 4 Mechanical Properties of Wood David W. Green, Jerrold E. Winandy, and David E. Kretschmann Contents he mechanical properties presented in this chapter were obtained from tests of small pieces of wood Orthotropic Nature of Wood 4–1 termed “clear” and “straight grained” because they Elastic Properties 4–2 did not contain characteristics such as knots, cross grain, Modulus of Elasticity 4–2 checks, and splits. These test pieces did have anatomical Poisson’s Ratio 4–2 characteristics such as growth rings that occurred in consis-
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