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1.
金刚石涂层木工刀片磨损的研究 总被引:3,自引:0,他引:3
本文主要研究刀具材料,试验环境对金刚石涂层刀片耐磨性的影响,探讨刀片的耐磨性和耐腐蚀性,试验发现金刚石涂层提高了刀片耐磨性20%-45%,金刚石漠膜均有不同程序的肃落,限制了涂层刀片的耐磨性,试验表明屑末溶液和醋酸,盐酸混合溶液不腐蚀金铡石薄膜,但腐蚀基体材料,金刚石薄膜磨耗机理是“磨损变形-裂纹-磨屑形成”,高速钢刀片以磨料磨损为主,腐蚀损为辅,粘结剂(钴元素)丧失是硬质合金刀片磨损的根本原因,一旦残余粘结力不足以抵抗磨控所产生的剪切力,碳化钨颗粒就会因疲劳而脱落。 相似文献
2.
Wayan Darmawan Chiaki Tanaka Hiroshi Usuki Tadashi Ohtani 《Journal of Wood Science》2001,47(2):94-101
This paper presents the performance of coated carbide tools when grooving various density hardboards and wood-chip cement boards. Work materials of low density (about 0.8g/cm3) and high density (about 1.2g/cm3) were tested. The coating materials studied were chromium carbide, titanium carbonitride, and titanium carbide, which were synthesized on P30 carbide substrate using a chemical vapor deposition method; titanium nitride, chromium nitride, and titanium carbonitride were synthesized using the physical vapor deposition method. Cutting tests were performed during grooving at a cutting speed of 1000m/min and a feed rate of 0.1 mm/rev. The results of the study show that the coated carbide tools are more advantageous in reducing the progression of tool wear and retaining lower normal force and noise level when cutting both hardboard and wood-chip cement board of high density than was the uncoated carbide tool. The wear rate of the coated carbide tools for the wood-chip cement board increased more rapidly than that of the hardboard with increasing densities. Though the coated carbide tools suffered more wear with the low-density wood-chip cement board than with hardboard, their normal force and noise level were always lower for the low-density wood-chip cement board.Part of this paper was presented at the 11th Annual Meeting of the Chugoku Shikoku branch of the Japan Wood Research Society, Matsue, Shimane, September 25, 1999 相似文献
3.
《Wood material science & engineering》2013,8(3):155-161
Abstract This study investigated the relationship between tool wear and some chemical and physical properties for four different Mozambican lesser known tropical species,: Pseudolachnostylis maprounaefolia (ntholo), Sterculia appendiculata (metil), Acacia nigrescens (namuno) and Pericopsis angolensis (muanga). Tool wear is an important aspect for sawmilling and for the woodworking industry. For Mozambique, the utilization of available lesser known wood species will help to increase domestic industry and the economic usage viability of sustainable forest management. A set of experiments was performed on a shaper with a mechanical feed mechanism. Tools of a cemented carbide grade for woodworking were used, and the cutting parameters were fixed. Edge recession and tool wear radius were measured for monitoring tool wear. The wear mechanism was investigated using a scanning electron microscope. The experimental results showed that the chemical properties of the wood species have a great effect on tool wear. Wood silica content was the most important factor affecting tool wear. Wood density and extractives had a low influence on tool wear. The highest tool wear was observed in ntholo, which also had the highest ash and silica contents. A single parameter for evaluation of tool wear was not sufficient to describe the amount of total tool wear. 相似文献
4.
Published research on the wear processes of cemented tungsten carbide tools used for machining reconstituted wood products was reviewed, and the current state of knowledge in this area was evaluated. Underlying assumptions and conclusions regarding high-temperature oxidation/corrosion wear during machining were examined in view of known reaction kinetics of cemented tungsten carbide alloys in oxidative and corrosive environments at temperatures that may occur at the cutting edge. This examination indicated that some wear mechanisms other than high-temperature oxidation/corrosion are likely to be rate-controlling when machining reconstituted wood products such as particleboard and fiberboard. 相似文献
5.
This work deals with characterization of the wear behavior of woods obtained from agribusiness waste and from post-consume items. The main goal on this research is to generate data that could contribute to highlight the engineering performance of endangered wood species, and enhance reintroduction of these species to natural environment. Post-consume samples from Brazilwood (Caesalpinia echinata) and imbuia (Ocotea porosa), and also from the pseudo-stem of peach palm (Bactris gasipaes) were tested and their abrasion behavior was characterized both mechanically and morphologically. The results obtained showed that the wear rate of the tested materials was dependent of their density, and that the pseudo-wood obtained from peach palm has a performance similar to that of several commonly used woods. 相似文献
6.
7.
A. Krilov 《Wood Science and Technology》1987,21(3):211-217
Summary Preliminary investigations of the interaction occurring between different timber species and various types of steel used for sawblade manufacture, have indicated clearly the practical importance of the process of stress corrosion cracking (Krilov 1986). Based on eight timber species and four types of steel, these have confirmed the previous findings, indicating that the losses of material can be very extensive. The results of the combined effects of corrosion and wear produced steel losses ranging from 3.3 to 8.4 g/m2/h in weight and 0.0008 to 0.002 mm/h in thickness of the sawblade. The interaction between timber species and the types of steel was highly significant. The corrosion losses caused by the stringybark species, Eucalyptus obliqua, E. muellerana and E. macrorhynca were >37% greater than those produced by species not belonging to this botanical classification. Both timber and steels were ranked by Duncan's multiple-range test according to their corrosive properties, which differed at 5% probability level. These findings have practical applications in the woodworking industry and related fields. 相似文献
8.
Alieta Eyles Paul Drake Le Thanh Quang Pham Van Bon Daniel Mendham Don White 《Southern Forests》2015,77(4):287-296
Selected tropical Acacia species are used extensively for short-rotation plantation forestry in many parts of Asia and, to a limited degree, in Australia. We explored leaf-level photosynthetic activity and leaf water potential (Ψleaf) of three field-grown Acacia tree species (aged between 7 and 18 months) in contrasting wet–dry tropical plantations in southern Vietnam and northern Australia. Light-saturated photosynthetic rate (A1500) declined throughout the morning and early afternoon in the dry season; in the wet season, levels remained high and relatively constant throughout most of the day. Maximum daily A1500 at 09:00 ranged from 22.2 μmol?m?2?s?1 in the wet to 10.4 μmol?m?2?s?1 in the dry season. At both locations, trees were able to extract soil water such that pre-dawn leaf water potential (Ψpd) remained>?1.5?MPa even at the end of the dry season. Stomatal conductance to water vapour (gs) did not respond to decreasing Ψleaf during the wet season but was sensitive to changes in Ψleaf in the dry season. Species comparisons of the relationships between A1500 and Ψleaf revealed different strategies to balance carbon uptake and water loss in a wet–dry environment. Acacia crassicarpa and A. mangium regulated Ψleaf to a greater extent than the A. mangium×A. auriculiformis hybrid such that ?Ψleaf (determined as Ψpd?midday Ψleaf) was unaffected by season. This result suggests that the hydraulic regulation of tree water status varies amongst young tropical Acacia species. From a management perspective, for Acacia species that tend to strongly regulate water loss in environments with an extended dry season, overall productivity at the end of a rotation may be less than for species that prioritise carbon gain. 相似文献
9.
In this study we investigated the abrasive wear property of Douglas fir (Pseudostuga menziesii Franco) on abrasive paper using test specimens with various dimensions and annual ring widths. The effect of the annual rings on the abrasive wear property of Douglas fir was clarified from the relation with the compression strength of the wood specimens. The dispersion of the wear coefficient, which was calculated as the wear volume divided by the friction distance and the load applied to the friction surface, varied when there were fewer than approximately three annual rings in the specimen, as did the compression strength. As clarified from these results, it was found that the effect of the annual rings on the abrasive wear and compression properties of Douglas fir is closely related to the earlywood/ latewood ratio.Part of this report was presented at the 50th Annual Meeting of the Japan Wood Research Society, Kyoto, April 2000 相似文献
10.
Justin M. Renkema G. Christopher Cutler Derek H. Lynch Kenna MacKenzie Sandra J. Walde 《Journal of pest science》2011,84(3):281-287
Mulching can be beneficial for organic highbush blueberry production, but its effects on insect pests have received little
attention. For pests that pupate in soil, depth may affect pupation success due to differences in temperature and moisture,
mortality factors such as predation, or efficacy of controls such as insecticidal soil drenches. We examined how mulch type
and moisture affect pupation depth for Rhagoletis mendax Curran (blueberry maggot), an important pest of blueberries. In laboratory studies, pupation depth was measured in wood waste
compost, uncomposted pine needles, soil and sand, each at dry, field moisture levels and wet, 99% water holding capacity conditions.
Pupation occurred more deeply but with greater variability in pine needle mulch compared to compost mulch, soil, or sand.
Approximately 50% of maggots pupated on the surface of wet soil, however, maggots burrowed more deeply in wet than in dry
pine needles. Moisture level did not significantly affect pupation depth in compost or sand. Some larvae unexpectedly escaped
the stacks of cups used to assess pupation depth or died before forming a puparium. Less than 70% of stacks with dry pine
needles contained pupae, and fewer pupae were recovered from wet than dry compost and soil. These results suggest that mulch
material and/or moisture levels can have significant impacts on R. mendax pupation depth with potential implications for its management. 相似文献
11.
《Scandinavian Journal of Forest Research》2012,27(1-4):125-140
During three consecutive years, 1978–1980, cloudberries (Rubus chamaemorus L.), cranberries (Vaccinium oxycoccus L. & Vaccinium microcarpum Turcz.) and lingonberries Vaccinium vitis‐idaea L.) growing wild in Swedish forests and mires were inventoried in the annual National Forest Survey. Both the coverage and fertility of these were estimated. Observations from 42 000 test sites (314 m2 each) were processed according to geographical region, composition of tree and field layer, altitude and occurrence of draining ditches. Cloudberries cover 425 000 hectares or 1.5 % of the total investigated area (28.6 million hectares). The corresponding values for cranberries and lingonberries are 136000 hectares (0.5 %) and 1362000 ha (4.8%) respectively. Open mires have a greater degree of coverage by cloudberry and cranberry than wet forests on peat. The reverse situation is true for lingonberry. The total berry yield on peatland was estimated to 116.6 million kg (freshweight), distributed as 75.7 million kg cloudberries, 20.8 million kg cranberries and 20.1 million kg lingonberries. The corresponding production of lingonberries on mineral soils was 188.8 million kg. Both in wet forests and on mires, drained areas show lower berry production for the three species, with one exception. Lingonberries yielded better on drained mires. Productive stands of cloudberries and cranberries ought not to be drained for economic reasons. 相似文献
12.
Promotive effect of the hot water-soluble fraction from corn fiber on vegetative mycelial growth in edible mushrooms 总被引:1,自引:0,他引:1
Corn fiber (CNF) is an abundant by-product of the wet corn milling process used to produce corn starch. In light of the need to recycle organic wastes, the effects of adding a hot water-soluble fraction (HWSF) from CNF to a medium on the vegetative mycelial growth of nine edible mushrooms such as Lentinula edodes and Pholiota nameko were investigated. The results showed that the mycelial growth of these fungi was markedly increased (1.4–9.5 times that of the control) by adding 5%–20% CNF-HWSF to the medium. These promotive effects were also apparent on mycorrhizal mushrooms, such as Tricholoma matsutake (3.3-fold) and Lyophyllium shimeji (3.7-fold). The promotive effects on mycelial growth were shown in the low-molecular-weight fractions (molecular weight <500 daltons) prepared from CNF-HWSF. The promotive actions were more effective on slow-growing mushrooms (L. edodes and P. nameko) than on rapidly growing mushrooms (Pleurotus ostreatus and Flammulina velutipes). The results obtained in this experiment suggest that CNF-HWSF can be used as a promotive substance for cultivating edible mushrooms.Part of this work was presented at the 4th meeting of the Japanese Society of Mushroom Science and Biotechnology, Hiroshima, 2000; and at the 2nd meeting of the Far East Asia for Collaboration on Edible Fungi Research, Tottori, 2002 相似文献
13.
《Wood material science & engineering》2013,8(3):128-131
Abstract This study was carried out to determine the effect of knife wear, as measured in hours of use, on the finger-joint strength of silver fir wood (Abies alba), bonded with polyurethane (PU) and polyvinyl acetate (PVAc) adhesives. Wood samples were collected after 1, 32 and 64 h of knife wear. Results showed that as knife wear increased, bending strength or modulus of rupture (MOR) of the finger-jointed samples was reduced by 11.1% (PVAc) to 21.2% (PU) after 32 h of knife wear, and by 19.6% (PVAc) to 27.6% (PU) after 64 h of knife wear, whereas modulus of elasticity (MOE) of the finger-jointed samples was reduced by 10.5% (PVAc) to 12.5% (PU) after 32 h of knife wear, and by 11.7% (PVAc) to 10.0% (PU) after 64 h of knife wear. Tension strength of the finger-jointed samples was reduced by 2.1% (PVAc) to 1.5% (PU) after 32 h of knife wear, and by 5.4% (PVAc) to 16.0% (PU) after 64 h of knife wear. 相似文献
14.
A method for precision sowing Eucalyptus seeds was needed at the Florida Division of Forestry's nursery. A way to do this is to coat cleaned seeds to form uniform pellets, which are easy to handle with mechanical equipment. The small volume of the seed lots to be pelleted in Florida restricted choice of commercial companies that could do the pelleting. Small volumes (50 to 125 ml) of Eucalyptus robusta Sm. seeds were successfully pelleted in-house with a coating of fine silica sand filler and two polyvinyl alcohol (P.V.A.) binders, and by two commercial companies—Germain's, Inc. and Hilleshog Seed Co., Ltd. Nursery performance of sand-P.V.A. and Hilleshog pellets was similar to that of uncoated seeds, although germination speed was slowed. The binder Gelvatol®,1 a coldwater soluble P.V.A., had advantages over Elvanol®, a cold-water insoluble binder. Plant yield of Germain's Filcoat® pellets was appreciably less than that of uncoated seeds, but the toughness of the Filcoat® pellets might be an advantage in some sowing situations. The Florida Division of Forestry routinely pellets seeds of several Eucalyptus species in a reciprocating-rotating pan using fine sand and Gelvatol®. 相似文献
15.
曹平样 《林业机械与木工设备》1999,(5)
本文主要研究屑末溶液和酸溶液对金刚石涂层刀片的腐蚀作用。试验表明:金刚石涂层抑制了屑末溶液和酸溶液对高速钢(W18Cr4V)或硬质合金(YGS)刀片的腐蚀作用;未涂层的高速钢(W18Cr4V)或硬质合金(YG8)刀片,其表面在酸溶液或屑末溶液的作用下,都存在程度不同的腐蚀。 相似文献
16.
Wayan Darmawan Chiaki Tanaka Hiroshi Usuki Tadashi Ohtani 《Journal of Wood Science》2001,47(5):342-349
This paper reports on the performance of coated carbide tools in turning wood-chip cement board. The coating materials studied were titanium carbonitride (TiCN), titanium nitride (TiN), chromium nitride (CrN), and titanium nitride/aluminum nitride (TiN/AlN), which were synthesized on the P30 carbide substrate. The aim is to investigate the effect of coating materials and cutting speeds on the wear characteristics of the coated carbide tools. Cutting tests were performed when turning wood-chip cement board at cutting speeds of 30, 40, 50 and 60 m/s, a depth of cut of 1mm, and a feed of 0.05 mm/rev. The results of the study show that the coated carbide tools provided better performance than the P30 carbide tool, especially in terms of reducing the progression of the wear rate and clearance wear. The TiN/AlN-coated carbide tool showed the smallest increase in both wear rate and clearance wear with an increase in cutting speed and had the longest tool life among the coated carbide tools investigated. Though the TiCN-coated carbide tool was observed to have a low wear rate and low clearance wear for cutting speeds of 30 and 40m/s, when the cutting speeds were >50m/s its wear rate and clearance wear were almost the same as those of CrN-and TiN-coated carbide tools, which had high values for these parameters.Part of this paper was presented at the 21st IUFRO World Congress, August 2000, Kuala Lumpur, Malaysia 相似文献
17.
Sufang Yu Guanghui She Shaoming Ye Xiaoguo Zhou Xianyu Yao 《Journal of Sustainable Forestry》2018,37(8):753-770
Pinus yunnanensis var. Tenuifolia is an important species of timber and grease in southern China, but the characteristics of the soil microbial community in P. yunnanensis var. natural secondary forests are still poorly understood. Using a fumigation-extraction method and phospholipid fatty acid (PLFA) analysis, we study microbial biomass and community composition in the topsoil (0–10 cm) of three types of secondary forests (PYI, PYII, PYIII) dominated by P. yunnanensis var. to varing degrees. Microbial biomass carbon and nitrogen, total PLFA, and PLFA contents of bacterial, fungal, and arbuscular mycorrhizal fungi were significantly lower in PYI than PYII or PYIII, and there were significant differences in the monounsaturated/saturated fatty acid ratio among the tested forests. Principal component analysis indicated that the soil microbial community structure of the tested forests differed significantly. The changes in soil microbial biomass and community composition were positively correlated with soil water content, pH, organic matter (SOM), total nitrogen (TN), and total phosphorus. Season did not significantly affect the soil microbial community structure, but significantly affected soil microbial biomass, SOM, and TN, which were higher in the dry season than in the wet season. 相似文献
18.
Patrick Hoehn Ingolf Steffan-Dewenter Damayanti Buchori Teja Tscharntke 《Agroforestry Systems》2009,76(1):163-171
Tropical insect species show year-round breeding activity due to favourable climatic conditions. However, most species also
display seasonal reproductive peaks, but little is known about underlying causes of temporal density changes. We investigated
population dynamics of the pest predator Rhynchium haemorrhoidale (F.) (Hymenoptera: Eumenidae) and its natural enemies in relation to season, climate and varying shade tree composition in
cacao agroforestry systems in Central Sulawesi (Indonesia). Nesting of R. haemorrhoidale showed clear seasonality with highest densities in the wet season and lowest in the dry season, which was not related to
changes in temperature. Wasp densities increased with land-use intensity, presumably because less-shaded areas offer more
favourable climatic conditions and higher densities of the major prey, the cacao pest Agathodes caliginosalis (Lepidoptera: Pyralidae). Pupal body size was higher in June than in November indicating increasing intraspecific competition
due to high wasp densities and food shortage at the beginning of the wet season. Body size between habitat types was similar,
thus season appeared to be more important than habitat in terms of food supply. High wasp densities in the wet season were
associated with high diversity of the altogether seven parasitoid species. In conclusion, we found a pronounced seasonality
of the wasp R. haemorrhoidale and a preference for little shaded agroforestry, which may be due to enhanced temperature and density of its prey. Our data
indicate a high potential for biological control of a major cacao pest by management of nesting sites of R. haemorrhoidale. 相似文献
19.
Stand structure and the regeneration ofChamaecyparis pisifera on sites with and without well-developed soil in an old-growth coniferous forest, Akasawa Forest Reserve, central Japan,
were investigated, along with their relationships to other important coniferous species. Of stems ofC. pisifera≥5 cm diameter at breast height, stems with intermediate size were absent in stands on the developed-soil site, while those
with smaller size increased in stands on the undeveloped-soil site, which supported a higher density ofC. pisifera. In the stands without recent tree-fall of canopy stems on the developed-soil site, canopy stems ofC. pisifera were distributed uniformly and the understory stems, patchily. On the other hand, both canopy and understory stems ofC. pisifera in stands on the undeveloped-soil site were distributed patchily. In the understory,C. pisifera occurred as clonal patches formed by vegetative reproduction on various types of microsites including bare rocks. However,
the clonal patches did not occur in a stand on the developed-soil site with dense saplings of an evergreen conifer,Thujopsis dolabrata, which can expand vegetatively with a well developed soil layer. Gap formation may induceC. pisifera to develop tree-form stems from shrubby clonal patches. On developed-soil sites,C. pisifera stands that survive a long disturbance-free period on this site need catastrophic disturbance for their regeneration, which
will eliminateT. dolabrata in the understory and create bare soil for colonization ofC. pisifera from seeds. On undeveloped-soil sites,C. pisifera replaces itself continuously by effective vegetative reproduction. Ground instability and the wet condition of this site
may promote the replacement. 相似文献
20.
《Scandinavian Journal of Forest Research》2012,27(1-4):278-283
Lepidoptera larvae are important prey for capercaillie chicks {Tetrao urogallus), but utilization varies among habitats. This field experiment investigates the effects of larval feeding behaviour, abundance and the density of bilberry (Vacciniwn myrtillus) on utilization of larvae by a group of four capercaille chicks and also tests whether chick utilization differs between wet and dry coniferous forest. In fenced plots, four hand‐raised chicks were released for a 15 min feeding period. Reduction of geometrid larvae was correlated positively with their abundance but correlated negatively with bilberry density. Geometrids had a much higher predation risk than pyralids and tortricids, probably because they are exposed while feeding, in contrast to pyralids and tortricids. Total reduction of lepidoptera was higher in wet than dry forest, probably due to a higher proportion of geometrid larvae, and lower density of bilberry in the wet forest. The manner of insect feeding and habitat type (e.g. wet and dry forest), which influence bilberry density, therefore may be important factors to consider when assessing or managing habitat quality for capercaillie chicks. 相似文献