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高压制备高强度木质材料OA

High-Pressure Preparation of High-Strength Wood Materials

中文摘要英文摘要

地球上的矿产资源是有限的,而木材则可以再生.用改性木材代替储量有限的工业材料是人类长期追求的目标.采用大腔体六面顶压机对轻木、椴木和东非黑紫檀 3 种木材试样进行室温高压处理,分析了高压处理对其气干密度、抗压强度、弹性模量等性能的影响,并通过CT和扫描电子显微镜观察其内部微观结构变化.结果表明,3 种木材的物理力学性能均有所提升.轻木、椴木和东非黑紫檀经 5.50 GPa高压处理后,其密度分别提升 239%、112%和 11%,表面硬度分别提升 79%、46%和 15%,抗压强度分别提升 33%、9%和 28%.东非黑紫檀压密材的比强度(101.55 kJ/kg)接近铝合金(109.23 kJ/kg);东非黑紫檀具有比陶瓷材料轻质、比铝合金绝缘和隔热的特点;高比强度东非黑紫檀有潜力取代铝合金,有望在很多特殊环境中获得应用,为未来工业的可持续发展提供支持.研究结果为木材高值化应用提供了新思路.

Mineral resources on Earth are finite,but wood is renewable.Therefore,replacing limited industrial materials with modified wood remains a long-term pursuit.This study processed samples of three wood types,including balsa(Ochroma lagopus),basswood(Tilia tuan),and African blackwood(Dalbergia melanoxylon),with a large volume cubic press to compress these samples at room temperature under high pressure.The effects of high-pressure treatment on the air dry density,compressive strength,and elastic modulus of the three wood species were analyzed,and changes in their internal microstructures were observed using CT and scanning electron microscope.The results showed that the physical and mechanical properties of all three wood species improved.After high-pressure processing at 5.50 GPa,the density of balsa,basswood,and African blackwood increased by 239%,112%,and 11%,respectively.Additionally,the surface hardness increased by 79%,46%,and 15%,respectively,and the compressive strength increased by 33%,9%,and 28%,respectively.Notably,the specific strength of compressed African blackwood(101.55 kJ/kg)approaches that of aluminum alloys(109.23 kJ/kg).The results demonstrate that African blackwood is lighter than ceramic materials.Furthermore,this wood offers superior electrical insulation and thermal insulation compared to aluminum alloy.Crucially,African blackwood possesses high specific strength,and this property gives it significant potential to replace aluminum alloy in numerous special environments.Such application supports sustainable development for future industries.In conclusion,this research opens new possibilities for high-value wood applications.

叶子;周雪峰;许家宁;周成林;杨逸;郑林鹏;陈斌

北京高压科学研究中心,上海 201203北京高压科学研究中心,上海 201203北京高压科学研究中心,上海 201203北京高压科学研究中心,上海 201203||哈尔滨工业大学(深圳),广东 深圳 518055北京高压科学研究中心,上海 201203||哈尔滨工业大学(深圳),广东 深圳 518055北京高压科学研究中心,上海 201203||哈尔滨工业大学(深圳),广东 深圳 518055北京高压科学研究中心,上海 201203||哈尔滨工业大学(深圳),广东 深圳 518055||上海前瞻物质科学研究院,上海 201203

数理科学

大腔体六面顶压机木材压缩木材密度力学性能

large volume cubic presswood compressionwood densitymechanical properties

《高压物理学报》 2026 (3)

1-11,11

国家自然科学基金(12274101)

10.11858/gywlxb.20251127

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