农业工程学报
農業工程學報
농업공정학보
2014年
24期
332-338
,共7页
宋孝周%白鹭%肖建平%张保健%雷亚芳
宋孝週%白鷺%肖建平%張保健%雷亞芳
송효주%백로%초건평%장보건%뢰아방
秸秆%机械加工%质量控制%棉秆重组方材%机械加工性能%质量等级%质量等级值
秸稈%機械加工%質量控製%棉稈重組方材%機械加工性能%質量等級%質量等級值
갈간%궤계가공%질량공제%면간중조방재%궤계가공성능%질량등급%질량등급치
straw%machining%quality control%reconstituted square lumber made from cotton stalk%machining properties%quality grade
棉秆重组方材是一种新型人造生物质材料,它是棉秆材料化利用的一个新方向,其制备过程主要包括棉秆的疏解、干燥、施胶、组坯、四面加压以及后期处理。为了探明棉秆重组方材机械加工性能,为其高附加值加工利用提供技术依据,该研究参照美国材料与试验协会标准ASTM D1666-87和新西兰林业科学研究院制定的评价标准,分别对其刨削、砂光、铣削成型、钻孔、榫眼加工、车削及横截等7种机械加工性能进行测试和综合评价,并对各项机械加工缺陷进行分类,参照中国林业行业标准LY/T 2054-2012对棉秆重组方材进行综合评分。结果表明:棉秆重组方材的砂光、钻孔和铣削成型3项加工性能的质量等级均为优秀,其质量等级值分别为4.37、4.43和4.37。刨削、榫眼加工和车削的质量等级为良好,质量等级值分别为3.47、3.87和3.07。横截性能表现中等,质量等级值是2.63;在满分50分的机械加工性能综合评分中,棉秆重组方材得分为39.5;当刨削厚度一定时,每英寸刀痕数对刨削质量有较大影响,当每英寸刀痕数由25增加到48时,棉秆重组方材刨削性能明显提高。砂光处理可明显改善刨削加工后的缺陷,也是棉秆重组方材刨削后必要的加工工序;棉秆重组方材在机械加工过程中出现的主要缺陷有削片沟痕、毛刺沟痕、毛刺和撕裂等,在实际产品加工应用时,需充分考虑其加工特性,选择合理加工方式和参数,以期提高加工质量和效率。该研究结果有助于充分认识和开发棉秆重组方材的利用潜能,对优化棉秆重组方材性能、提高其加工利用水平具有重要意义。
棉稈重組方材是一種新型人造生物質材料,它是棉稈材料化利用的一箇新方嚮,其製備過程主要包括棉稈的疏解、榦燥、施膠、組坯、四麵加壓以及後期處理。為瞭探明棉稈重組方材機械加工性能,為其高附加值加工利用提供技術依據,該研究參照美國材料與試驗協會標準ASTM D1666-87和新西蘭林業科學研究院製定的評價標準,分彆對其鑤削、砂光、鐉削成型、鑽孔、榫眼加工、車削及橫截等7種機械加工性能進行測試和綜閤評價,併對各項機械加工缺陷進行分類,參照中國林業行業標準LY/T 2054-2012對棉稈重組方材進行綜閤評分。結果錶明:棉稈重組方材的砂光、鑽孔和鐉削成型3項加工性能的質量等級均為優秀,其質量等級值分彆為4.37、4.43和4.37。鑤削、榫眼加工和車削的質量等級為良好,質量等級值分彆為3.47、3.87和3.07。橫截性能錶現中等,質量等級值是2.63;在滿分50分的機械加工性能綜閤評分中,棉稈重組方材得分為39.5;噹鑤削厚度一定時,每英吋刀痕數對鑤削質量有較大影響,噹每英吋刀痕數由25增加到48時,棉稈重組方材鑤削性能明顯提高。砂光處理可明顯改善鑤削加工後的缺陷,也是棉稈重組方材鑤削後必要的加工工序;棉稈重組方材在機械加工過程中齣現的主要缺陷有削片溝痕、毛刺溝痕、毛刺和撕裂等,在實際產品加工應用時,需充分攷慮其加工特性,選擇閤理加工方式和參數,以期提高加工質量和效率。該研究結果有助于充分認識和開髮棉稈重組方材的利用潛能,對優化棉稈重組方材性能、提高其加工利用水平具有重要意義。
면간중조방재시일충신형인조생물질재료,타시면간재료화이용적일개신방향,기제비과정주요포괄면간적소해、간조、시효、조배、사면가압이급후기처리。위료탐명면간중조방재궤계가공성능,위기고부가치가공이용제공기술의거,해연구삼조미국재료여시험협회표준ASTM D1666-87화신서란임업과학연구원제정적평개표준,분별대기포삭、사광、선삭성형、찬공、순안가공、차삭급횡절등7충궤계가공성능진행측시화종합평개,병대각항궤계가공결함진행분류,삼조중국임업행업표준LY/T 2054-2012대면간중조방재진행종합평분。결과표명:면간중조방재적사광、찬공화선삭성형3항가공성능적질량등급균위우수,기질량등급치분별위4.37、4.43화4.37。포삭、순안가공화차삭적질량등급위량호,질량등급치분별위3.47、3.87화3.07。횡절성능표현중등,질량등급치시2.63;재만분50분적궤계가공성능종합평분중,면간중조방재득분위39.5;당포삭후도일정시,매영촌도흔수대포삭질량유교대영향,당매영촌도흔수유25증가도48시,면간중조방재포삭성능명현제고。사광처리가명현개선포삭가공후적결함,야시면간중조방재포삭후필요적가공공서;면간중조방재재궤계가공과정중출현적주요결함유삭편구흔、모자구흔、모자화시렬등,재실제산품가공응용시,수충분고필기가공특성,선택합리가공방식화삼수,이기제고가공질량화효솔。해연구결과유조우충분인식화개발면간중조방재적이용잠능,대우화면간중조방재성능、제고기가공이용수평구유중요의의。
Reconstituted square lumber made from cotton stalk is a new type of man-made composite material and has a promising future, which is a new direction of material utilization of cotton stalk. Its preparation process mainly includes cotton stalk combing, drying, glue blending, lay-up, pressing in four surfaces, and after-treatment. In order to find out and comprehensively evaluate the machining properties of reconstituted square lumber made from cotton stalk, and provide technical evidences for its high value-added utilization, seven mechanical processing items which contain planing, sanding, shaping, boring, mortising, turning, and cross cutting were studied in this paper. Tests on planing, sanding, shaping, boring, mortising, and turning were based on the standard of American society for testing and materials (ASTM D1666-87), and the test on cross cutting was referred to the method established by the New Zealand Forest Research Institute. Various machining defects were classified on the basis of a series of experimental results. The comprehensive evaluation score of the machining properties of reconstituted square lumber made from cotton stalk was conducted according to the Chinese forestry-industrial standard (LY/T 2054-2012). The results showed that quality grades of machining properties of reconstituted square lumber made from cotton stalk were excellent in the items of sanding, boring and shaping. According to the weighted integration method, the quality grade values of the three items were 4.37, 4.43, and 4.37, respectively. The quality grades of the machining properties of planing, mortising, and turning were good. The quality grade values of planing, mortising, and turning were 3.47, 3.84, and 3.07, respectively. The quality grade of the machining property of cross cutting was poorer than others, which was in the middle grade and the quality grade value was 2.63. Reconstituted square lumber made from cotton stalk scored a 39.5 out of 50 in the comprehensive evaluation score of machining properties. When the machining thickness of planing was 1.6mm and constant, knife marks per inch had a significant impact on quality. When knife marks per inch increased from 25 to 48, the planing machining property of reconstituted square lumber made from cotton stalk had a significant improvement. Sanding did significantly improve the processing defects of planing. Sanding was the necessary process of reconstituted square lumber made from cotton stalk after planing. During the machining processing, the main defects in planing were chipped grain and torn grain. The main defects in sanding were surface fuzzy and fuzzy grain. Shaping defects were mainly fuzzy grain and torn grain. The main defects in mortising, cross cutting, boring, and turning were fuzzy grain and torn fiber in varying degrees. In order to improve the processing quality and efficiency, we should take into full account the machining properties and select a reasonable processing methods and parameters when reconstituted square lumber made from cotton stalk is in processing and application. The study results are beneficial to fully recognize and exploit the application potential of reconstituted square lumber made from cotton stalk. The results also have significance for optimizing the properties of reconstituted square lumber made from cotton stalk and improving its processing and utilizing levels.