RU2130180C1 - Method of determining biological stability of wood - Google Patents

Abstract

FIELD: woodworking. SUBSTANCE: method is suitable for application under various-type fungi effect conditions and consists in that wood samples are kept in water and then deepened into wet ground, kept there, and weighed, Further, then moisture absorption is measured and, after keeping in ground, natural drying rate is determined. EFFECT: accelerated test and increased informativeness.

Description

 The present invention relates to woodworking, and more specifically to methods for determining the biostability of wood when exposed to fungi of various types.

 A known method of biodeterioration of wood, including microtome cutting of wood samples and observing under a microscope staining colors under the influence of various chemicals (A.Ya. Kalninsh et al. Preservation and protection of timber. Handbook. M: Forest industry. 1971, S. 56-57 )

 The disadvantage of this method is the significant complexity, the need for chemicals and sophisticated equipment, which leads to high costs when testing various antiseptics.

 A known method for determining the biostability of wood, including the deepening of wood samples in moist soil, aging in it and weighing (S. N. Gorshin, I. A. Cherntsov. Polygon tests of antiseptics. M .: Forest industry. 1966, S. 29-30) which is a prototype.

 The disadvantage of this method is the high cost of time due to the need for lengthy tests and large errors in the subjective assessment of biodeterioration (L. M. Kovalchuk and others. Wooden structures in construction. M .: Stroyizdat. 1995, S. 190-193).

 An object of the invention is to accelerate tests while increasing information content due to objective indicators.

 The problem is achieved in that in the method for determining the biostability of wood, including the deepening of wood samples in moist soil, aging in it and weighing, according to the invention, the samples are kept in water before being buried in the soil, after absorption into the ground, the moisture absorption rate is determined, and after aging in soil - the speed of natural drying.

The method for determining the biostability of wood is as follows. Samples of wood, treated and untreated with an antiseptic, are immersed in water, for example for 24 hours, to even out the moisture of various samples and create favorable initial conditions for putrefactive mushrooms. Then the samples are weighed and buried in a moist soil containing mushrooms, characteristic of the area of use of wood products. After exposure, for example, 10 days in the soil, the samples are again weighed and the moisture absorption rate is determined as the ratio of the mass difference to the exposure time, and the samples are again buried in the soil. After a longer exposure time in the soil, for example 30 days, the samples are weighed and dried naturally for, for example, 10 days, after which the drying speed is determined as the ratio of the mass difference to the drying time. To reduce the test error, it is advisable to carry out all operations at the same temperature, for example 25 ^o C and constant soil moisture, controlled by the constant weight of the box with the soil.

As a result of the tests, two parameters are obtained: the moisture absorption rate, which characterizes the degree of danger of damage to wood by mushrooms and the drying rate, which characterizes putrefactive damage itself, since the rotting of the main skeleton of wood-cellulose occurs in two stages:
- saccharification of cellulose under the action of acidic enzymes secreted by fungal filaments, with obtaining soluble glucose:
n (C ₆ H ₁₀ O ₅ ) + n (H ₂ O) _ → n (C ₆ H ₁₂ O ₆ ),
- the oxidation of glucose by a large volume of air delivered into the thickness of the wood by air mycelium with the release of the final products - carbon dioxide and water:
C ₆ H ₁₂ O ₆ + 6O ₂ _ → 6CO ₂ + 6H ₂ O.
In the process of natural drying, wood affected by mushrooms gives less moisture due to the activity of mushrooms, which produce 6 parts of additional water from wood and 1 part of moisture. Therefore, a comparison of the rates of water absorption, as well as the drying of samples treated with various antiseptics, give objective characteristics of resistance to decay.

 Air-dried samples of pine, aged 24 hours in water, after treatment with an antiseptic based on wood resin, had a water absorption rate of 10 times 3.5 times less than untreated. The drying speed of the same samples, aged in the soil for 30 days, differed by more than 2 times, which indicates significant damage to unprotected wood.

 Thus, the proposed method significantly speeds up the testing of antiseptics and allows you to obtain objective information for a short period of testing.

 These features of the invention represent its differences from the prototype and determine the novelty of the proposal. These differences are significant because they provide the creation of a positive effect reflected in the purpose of the proposal, and there are no known technical solutions with the same effect.

 These features of the invention represent its differences from the prototype and determine the novelty of the proposal. These differences are significant because they provide the creation of a positive effect reflected in the purpose of the proposal, and there are no known technical solutions with the same effect.

Claims (1)

 A method for determining the biostability of wood, including the deepening of wood samples in moist soil, aging in it and weighing, characterized in that the samples are buried in water before being buried in the soil and moisture absorption rate is determined after deepening, and then, after aging in the ground, the speed of natural drying is determined and compare the rates of moisture absorption and drying of samples treated with various antiseptics.