Soproni Egyetem
EK
Soproni Egyetem
Sopron 2020
Vita est labor et studium
WILCKENS HENRIK VID
Sopron , 2020
ISBN 978-963-334-376-0 (on-
On- http://emk.uni-sopron.hu/images/dekani_hivatal/Kiadvanyok/Tu-
domanyosKozlemenyek2020.pdf Szerkesztette:
F F. K G. (szerk.) (2020): Sopron
. Sopron , Sopron.
3
...5
...6
...13
- : - - ...19
- ...26
Barta Edit, Bakki- ...33
gyakorlatain ...40
ha ...45
: - ...51
...61
Czimber ...69
: ...74
, -Zambia) pota ...81
...85
A t ...91
a Soproni- ...97
...105
...112
Herceg : szerkezetre ...119
Fagus sylvatica L.) faanyag polifenol ...127
Eszter Fagus sylvatica ...132
- ...137
Attila ...142
...149
...156
-da- ...163
: N - ...170
: vo- nalas ...177
...187
4 :
... 195
...200
...205
Gergely: ...210
: Faanyagok FT- ...217
Nevezi Csenge, Anita: ...221
A ...227
...232
...237
...247
...254
I a ...263
Zsolt -IR spektru- ...268
...273
...278
A ...284
...291
: lakott- ...298
...305
...311
: ...318
: ...325
Andrea - ...329
: A COVID- re ...336
Albert Levente, ...342
Rajczi ...348
...354
13
ETT FAANYAG ZSUGOROD
B M ,N R
9400 Sopron, Bajcsy-Zs. u. 4.
bader.matyas@uni-sopron.hu
majd az 1920-
- alatt telje
rab.
-
-
-
-
- - -0,3%.
-6- -
ria-effe
14
B ainak
- - rost -
lus
R1 T1 L1 V1 R T L V R2 T2 L2 V2
Kezeletlen 4.2% 9.7% 0.2% 13.6% 4.4% 10.9% 0.2% 15.9% 4.6% 10.6% 0.2% 14.9%
4.8% 10.8% 0.1% 15.3% 5.2% 12.0% 0.2% 18.0% 5.3% 11.5% 0.1% 16.4%
4.7% 10.8% 1.1% 15.9% 4.9% 12.0% 1.4% 19.1% 5.0% 11.4% 1.1% 16.7%
B Fagus sylvatica at
ez alkalmas. Ennek meg-
-
-
-
-
monomert Witeg MSH-
matos ke -
- -
on 200 percig kezelve tejsav-oligomerek kelet-
keztek.
A -csoportok ek ,
tejsav-
-
15
kken- a Memmert 100-
A bemutatott
ight percentage gain, WPG), vala loss, WPL
-
R, T, L -13, 14, 15, 16
; (1)
- -swelling efficiency, ASE -
-shrinkage efficiency, ASE
; (2)
ut ut t,
t
. Az -
-oligomerek teljes keresztmet-
A , a
A faanyag
- -
3
16 En
-
-
(a) , de a
,
-
tejsav-
-
17 -
A tejsav- ASE ASE
res volt.
A tejsav-oligomeres
-
rost faanyag sike
dokon kezelt
nagyobb
: -3.6.2-16-2017-
-
B M. N R. (2017) Hygroscopicity of longitudinally compressed wood. Acta Silv et Lig-
naria Hungarica 13:135 144. doi: 10.1515/aslh-2017-0010
B M. N R. (2018a) Influence of longitudinal compression rate on the properties of wood.
In: Barbu M. Petutschnigg A. Tudor EM (eds) Proceedings of the 5th International Conference on Processing Technologies for the Forest and Bio-based Products Industries. Freising/Munich, Germany, pp 62 68.
B M. N R. (2018b) Production technology and properties of longitudinally compressed
Science and Technology. Zagreb, Croatia, pp 35 43.
18
B M. N R. (2018c): The effect of the relaxation time on the mechanical properties of
longitudinally compressed wood. Wood Research. 63(3): 383 398.
N M. GRIGSBY W. VOLKMER T.(2015): Evaluating the extent of bio-polyester polymerization in solid wood by thermogravimetric analysis. Journal of Wood Chemistry and Technology 35(5):
325-336
SPARKE B. (1989) Procedure for the production of wood with continued flexibility, especially for use as edge strips, furniture parts and similar purposes, where stringent demands are made on the flexibi-
170364 B1, Danmark Patentdirektoratet, 6 p.
W R. (2007) Atlas of Wood, 6., neu bearb. und erw. Aufl. Fachbuchverl. Leipzig im Hanser
Verl, Leipzig, 816 p.