原位檢測論文連續(xù)壓縮載荷下木材力學(xué)性能及微觀結(jié)構(gòu)變化定量表征

1、 原位檢測論文：連續(xù)壓縮載荷下木材力學(xué)性能及微觀結(jié)構(gòu)變化定量表征【中文摘要】木材與木質(zhì)材料的力學(xué)性能在很大程度上取決于其內(nèi)部結(jié)構(gòu)特征。為了更好的了解和掌握木材力學(xué)性能與其微觀結(jié)構(gòu)的關(guān)系,本論文采用自主研發(fā)的原位檢測平臺,研究了不同條件下木材受連續(xù)壓縮時力學(xué)性能及其微觀結(jié)構(gòu)的實時變化情況,并著重分析了兩者之間的相互關(guān)系。本論文首先歸納了原位檢測方法在木材組織力學(xué)水平上的應(yīng)用,分析了現(xiàn)有原位檢測技術(shù)存在的問題及可實現(xiàn)的解決方法;隨后重點介紹了自主研發(fā)的原位檢測平臺的構(gòu)架及實施方式、圖像采集系統(tǒng)等重要部位的工作原理;并借助具體試驗,綜合分析了該平臺可實現(xiàn)的技術(shù)特點;然后通過該原位檢測平臺,以人工林杉

2、木(cunninghamia lanceolata)小試樣為研究對象,系統(tǒng)研究了不同生長輪早材在連續(xù)橫紋徑向壓縮時的力學(xué)行為及其微觀結(jié)構(gòu)變化;并進一步研究了不同加載速度、溫度和含水率條件下,早材在連續(xù)加載時的力學(xué)性能及其與內(nèi)部微觀結(jié)構(gòu)變化的關(guān)系。本論文的主要研究結(jié)論如下:(1)自主研發(fā)的原位檢測平臺包括兩個系統(tǒng),一是加載系統(tǒng),二是圖像采集系統(tǒng),兩個系統(tǒng)通過時間參數(shù)并行統(tǒng)一。圖像采集系統(tǒng)能在連續(xù)加載的過程中自動聚焦并實時拍攝木材變形的照片,并借助于測量與計算軟件對照片進行定量分析,從而實現(xiàn)木材的力學(xué)性能及其微觀結(jié)構(gòu)變化的動態(tài)檢測。(2)杉木各生長輪間早材橫紋徑向抗壓屈服強度(c)和橫紋徑向抗壓彈

3、性模量(ec)從心材到邊材呈逐漸減小趨勢。不同部位(心材、邊心材交界和邊材)間c與ec存在顯著的差異性。對三個部位(心材、邊心材交界和邊材)連續(xù)受壓產(chǎn)生首次屈服永久變形(塑性變形)的微觀結(jié)構(gòu)位置進行定量研究結(jié)果表明:第7生長輪與第11生長輪出現(xiàn)首次屈服變形的位置一致,均在距被加載表面第15-20層早材細胞處(平均距離分別為643m和689m);而第17生長輪在距被加載表面第5-10層早材細胞處(平均距離為153m)產(chǎn)生首次屈服變形。不同生長輪間早材微觀結(jié)構(gòu)的不同影響其橫紋抗壓力學(xué)性能在徑向方向上的變化。(3)在不同加載速度(1mm/min,10mm/min和50mm/min)條件下,早材產(chǎn)生首

4、次屈服變形的位置與被加載表面之間平均距離分別為689m,166m和23m。不同加載速度下早材小試樣的c與ec均差異顯著,與試樣產(chǎn)生首次屈服變形的位置有關(guān)。低速加載下(1mm/min),木材內(nèi)部最脆弱部位首先產(chǎn)生屈服變形,得到的c與ec相對較小,平均值分別為3.16mpa和45.79mpa;較高加載速度下(10mm/min和50mm/min),木材內(nèi)部非最脆弱部位首先產(chǎn)生屈服變形,得到的c與ec相對較大,平均值分別為3.71mpa和56.04mpa,4.51mpa和75.53mpa。(4)在不同溫度(-20oc、20oc、60oc、80oc和120oc)條件下,早材c與ec的變化趨勢一致。在負溫

5、度下(-20oc)得到c與ec均比正溫度下的c與ec大。一般來說,隨著溫度的升高,c與ec逐漸減小。同時,不同溫度下c與ec差異比較顯著。較低溫度(60oc)下與較高溫度(80 oc)下,早材的破壞方式不同。溫度60oc時,趨于剛性屈服;溫度80oc時,趨于柔性屈服;不同溫度(-20oc、20oc和60oc)下,出現(xiàn)首次屈服變形的位置相同,均為距被加載表面第17-20層早材細胞處(距被加載表面的平均距離分別為667m、689m和643m),表明在較低溫度(60oc)范圍內(nèi),溫度的變化并未改變木材內(nèi)部最脆弱部位的位置,但最脆弱部位木材的力學(xué)性能發(fā)生變化。(5)在不同含水率(絕干、氣干與飽水狀態(tài))

6、條件下,早材c與ec差異均顯著。c與ec隨著含水率增加呈逐漸減小的趨勢。由絕干到氣干狀態(tài),早材產(chǎn)生首次屈服變形的位置未發(fā)生變化,均在距被加載表面第17-20層早材細胞處(距被加載表面的平均距離分別為664m和689m);在飽水狀態(tài)下,加載過程中壓出的水分影響微觀結(jié)構(gòu)的拍攝和檢測。在不同含水率條件下,木材產(chǎn)生首次屈服變形時的破壞方式不同。在絕干和氣干條件下,趨于剛性屈服;而在飽水條件下,趨于柔性屈服。在絕干與氣干條件下,含水率變化并未改變木材內(nèi)部最脆弱部位的位置,但最脆弱部位木材的力學(xué)性能發(fā)生變化。綜上所述,本研究通過自主研發(fā)的原位檢測平臺,實現(xiàn)了連續(xù)加載條件下木材微觀結(jié)構(gòu)變化的實時檢測,并較好

7、解釋了不同條件下木材橫紋徑向壓縮力學(xué)性能變化的解剖學(xué)原因,為連續(xù)加載條件下木材力學(xué)行為的有效檢測和預(yù)測提供了技術(shù)基礎(chǔ)和理論依據(jù)?！居⑽恼縨echanical properties of wood and wood products are highly depended upon the interior structural features. based on this theory, this paper introduced research methods and tendency of testing on wood mechanical properties, then in

8、troduced the applying of in-situ inspection on wood tissue mechanical level and analyzed the existing and unsolved problems of the present in-situ inspection system. a self-developed in-situ inspection platform had been developed, and then the structures of the platform and its implement methods wer

9、e descried in detail. the mechanism of auto-focus photo-shooting system was given in the paper. by means of wood mechanical tests, detailed descriptions of the platform on how to achieve the variable technical characteristics had been obtained, and technical advantages of this platform were comprehe

10、nsive analyzed.by virtue of the self-developed in-situ inspection system and earlywood simples in each growth ring of chinese fir, wood mechanical behavior variations under continuous compressive loading and auto-focused in-situ inspection on microstructure characteristics of wood deformation had be

11、en systematically analyzed. meanwhile, through the change of outer environment conditions, i.e. loading rate, temperature and moisture conditions, variations on mechanical properties in these situations were obtained, and quantitative analysis on microstructure variances were investigated with the h

12、elp of the measuring and calculating software. the main conclusions of the paper are as follows:(1) the in-situ inspection system can be divided into two parts, one part is the loading system, and the other part is the picture-collection system. the two parts can be combined by the parameter of time

13、. the picture collection system can automatically take photos of materialssurface deformation during the loading process. meanwhile, by means of the quantitative calculation and measuring on the photos, the system can directly and precisely achieve the simulations of wood mechanical properties. (2)

14、by using early wood samples in each growth ring, the result that yield strength and modulus of elasticity under radial compression are decreasing from heartwood to sapwood. significant variations were observed among mechanical properties of different parts, i.e. heartwood, transition wood and sapwoo

15、d. the in-situ inspection on wood micro-structural deformation and quantitative analysis results showed that the first yield positions of both heartwood and transition wood occurred at 15-20 cell layer of earlywood (643m and 689m from the surface of loading compression, respectively), while the firs

16、t yield position of sapwood occurred at 5-10 cell layer of earlywood (153m from the surface of loading compression).(3) the yield strength and modulus of elasticity at different loading rates are relevant to the first yield position. loading rates of 1mm/min, 10mm/min and 50mm/min was adopted respec

17、tively for mechanical testing of typical softwood of chinese fir (cunninghamia lanceolata). the results indicated that the variations of wood mechanical performance at different loading rates were generated from the different position of the first yield point (689m, 166m and 23m, respectively); the

18、in-situ inspecting system could accurately characterize the variations of microstructure deformation. furthermore, the microstructure characteristics could be used to explain mechanical behavior of wood suffered from different loading rates.(4) mechanical properties, i.e. yield strength and modulus

19、of elasticity, have the same tendency with the variation of temperature conditions. mechanical properties at negative temperature are higher than that of at positive temperatures. generally speaking, yield strength and modulus of elasticity are decreasing with the increase of temperature. the fractu

20、re behaviors are different at relatively low (60oc)and high temperature(s80oc).at relatively low temperatures (including -20oc,20oc and 60oc), the fracture behavior is tend to in a rigid way; while at relatively high temperatures (including 80oc and 120oc), the fracture behavior is tend to in a flex

21、ible way. at different temperatures(-20oc,20oc and 60oc), the first yield position is similar, which occurred at 15-20 cell layer of the earlywood (667m,689m and 643m from the surface of loading compression, respectively), which inferred that the temperature had not affect the most vulnerable area i

22、n the sample.(5) the yield strength and modulus of elasticity are variable at different moisture conditions. generally, the yield strength and modulus of elasticity are decreasing from fully dry to air-dry and then to fiber saturate condition. the first yield positions were similar at air-dry and fu

23、ll-dry moisture conditions, which occurred at 15-20 cell layer of the earlywood (664m and 689m from the surface of loading compression, respectively); while at firber saturate moisture condition, the free water in cell walls or cavities was compressed out which made it impossible to see the fracture

24、 surface.the fracture behaviors are different between the relatively low (fully-dry and air-dry)and high moisture conditions(fiber saturate).at relatively low moisture conditions, the fracture behavior is tend to be in a rigid way; while at relatively high moisture condition, the fracture behavior i

25、s tend to be in a flexible way.above all, the self-developed inspecting method can help us understand and master the microstructure characteristics of wood deformation under continuous compressive loading, and can explain the variations of mechanical properties during continuous compression. the sys

26、tem can realize the effective anticipations of wood mechanical properties suffered from various compression conditions, and can quantitatively analyze the variance of wood microstructure characteristics.【關(guān)鍵詞】原位檢測 微觀結(jié)構(gòu) 力學(xué)性能 加載速度 溫度 含水率【英文關(guān)鍵詞】in-situ inspection mechanical properties micro-structure ch

27、aracteristics loading rate temperature moisture content【目錄】連續(xù)壓縮載荷下木材力學(xué)性能及微觀結(jié)構(gòu)變化定量表征摘要5-7abstract7-9第一章 緒論16-251.1 引言16-171.2 原位檢測方法在木材組織力學(xué)水平上的應(yīng)用17-221.2.1 組織力學(xué)水平上的研究手段19-201.2.2 微觀結(jié)構(gòu)檢測技術(shù)在木材組織力學(xué)水平上的應(yīng)用進展20-221.3 研究的目的和意義22-251.3.1 研究目的與項目來源22-231.3.2 研究的主要內(nèi)容與技術(shù)路線23-25第二章 原位檢測平臺的建立25-422.1 原位檢測平臺的組成25-

28、262.2 原位檢測平臺裝置26-272.2.1 加載裝置26-272.2.2 圖像采集裝置272.3 圖像采集系統(tǒng)的實現(xiàn)27-402.3.1 圖像的邊緣和清晰度27-282.3.2 自動聚焦工作原理28-292.3.3 自動聚焦工作過程29-302.3.4 原位檢測系統(tǒng)實物圖片30-312.3.5 連續(xù)加載條件下木材微觀結(jié)構(gòu)變化檢測方法31-352.3.6 彈性階段應(yīng)力應(yīng)變曲線的模擬方法35-402.3.7 本原位檢測平臺實現(xiàn)的技術(shù)步驟402.4 本章小結(jié)40-42第三章 連續(xù)壓縮載荷下木材橫紋抗壓力學(xué)性能徑向變化及其微觀結(jié)構(gòu)定量表征42-563.1 緒言42-433.2 材料與實驗方法43

29、-463.2.1 試驗樣品準(zhǔn)備43-453.2.2 試驗方法及試驗研究45-463.3 結(jié)果與討論46-553.3.1 杉木橫紋抗壓力學(xué)性能各生長輪間變異規(guī)律46-493.3.2 連續(xù)壓縮載荷下各生長輪微觀結(jié)構(gòu)變化的原位檢測49-513.3.3 連續(xù)壓縮載荷下不同部位力學(xué)性能差異與內(nèi)部結(jié)構(gòu)變化的關(guān)系51-553.4 本章小結(jié)55-56第四章 不同壓縮載荷速度下木材力學(xué)性質(zhì)及其微觀結(jié)構(gòu)定量表征56-664.1 緒言56-574.2 材料與方法574.3 結(jié)果與討論57-654.3.1 不同加載速度下木材橫紋抗壓力學(xué)性能測試57-594.3.2 不同加載速度下試樣出現(xiàn)首次屈服變形位置統(tǒng)計59-60

30、4.3.3 不同加載速度下木材微觀結(jié)構(gòu)變化原位檢測60-624.3.4 不同加載速度下木材力學(xué)行為與微觀結(jié)構(gòu)變化關(guān)系分析62-654.4 本章小結(jié)65-66第五章 不同溫度下木材力學(xué)性質(zhì)及其微觀結(jié)構(gòu)定量表征66-775.1 緒言66-675.2 材料與實驗方法67-695.2.1 試驗取材67-685.2.2 試驗中所需溫度的實現(xiàn)68-695.3 結(jié)果與討論69-755.3.1 不同溫度下木材橫紋抗壓力學(xué)性能測試69-705.3.2 不同溫度下木材微觀結(jié)構(gòu)變化的原位檢測70-725.3.3 不同溫度下木材力學(xué)行為與微觀結(jié)構(gòu)變化關(guān)系分析72-755.4 本章小結(jié)75-77第六章 不同含水率下木材

31、力學(xué)性質(zhì)及其微觀結(jié)構(gòu)定量表征77-846.1 緒言77-786.2 材料與實驗方法78-796.2.1 試驗材料與制樣78-796.3 結(jié)果與討論79-836.3.1 不同含水率下木材橫紋抗壓力學(xué)性能測試79-806.3.2 不同含水率下木材微觀結(jié)構(gòu)變形的原位檢測80-826.3.3 不同含水率下木材力學(xué)性能與微觀結(jié)構(gòu)變化關(guān)系分析82-836.4 本章小結(jié)83-84第七章 結(jié)論84-887.1 主要結(jié)論84-867.1.1 原位檢測平臺系統(tǒng)857.1.2 不同生長輪內(nèi)早材小試樣受壓變形的原位檢測857.1.3 不同加載速度下早材小試樣受壓變形的原位檢測85-867.1.4 不同溫度條件下早材小

32、試樣受壓變形的原位檢測867.1.5 不同含水率情況下早材小試樣受壓變形的原位檢測867.2 創(chuàng)新點86-877.3 展望及建議87-88參考文獻88-93在讀期間的學(xué)術(shù)研究93-95致謝95-96薃肀莂蒃袂肀肂蠆袈聿芄薂螄肈莇螇蝕肇葿薀罿肆腿莃裊肅芁薈螁膄莃莁蚇膄肅薇薃膃芅荿羈膂莈蚅袇膁蒀蒈螃膀膀蚃蠆腿節(jié)蒆羈羋莄蟻襖羋蒆蒄螀芇膆蝕蚆袃莈蒃螞袂蒁螈羀袁膀薁袆袁芃螆螂袀蒞蕿蚈衿蕆莂羇羈膇薇袃羇艿莀蝿羆蒂薆螅羅膁蒈蟻羅芄蚄罿羄莆蕆裊羃蒈螞螁羂膈蒅蚇肁芀蟻薃肀莂蒃袂肀肂蠆袈聿芄薂螄肈莇螇蝕肇葿薀罿肆腿莃裊肅芁薈螁膄莃莁蚇膄肅薇薃膃芅荿羈膂莈蚅袇膁蒀蒈螃膀膀蚃蠆腿節(jié)蒆羈羋莄蟻襖羋蒆蒄螀芇膆蝕蚆袃莈蒃螞

33、袂蒁螈羀袁膀薁袆袁芃螆螂袀蒞蕿蚈衿蕆莂羇羈膇薇袃羇艿莀蝿羆蒂薆螅羅膁蒈蟻羅芄蚄罿羄莆蕆裊羃蒈螞螁羂膈蒅蚇肁芀蟻薃肀莂蒃袂肀肂蠆袈聿芄薂螄肈莇螇蝕肇葿薀罿肆腿莃裊肅芁薈螁膄莃莁蚇膄肅薇薃膃芅荿螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄

34、袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅

35、羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿

36、螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕

37、袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁

38、羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅

39、蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆

40、袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀

41、羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁

42、螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂

43、衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆

44、肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇

45、螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁

46、袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂

47、聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆

48、螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈薇蚇袇肅莀薃羆膅薆葿羆羋荿螇羅羇膁螃羄膀莇蠆羃節(jié)芀薅羂羂蒅蒁羈肄羋螀羀膆蒃蚆肀羋芆薂聿羈蒂蒈肈肀芅袆?wù)仄M薀螂肆蒞莃蚈肅肅薈薄螞膇莁蒀蟻艿薇蝿螀罿荿蚅蝿肁薅薁螈膄莈薇螈莆膀袆螇肆蒆螁螆膈艿蚇螅芀蒄薃螄羀芇葿袃肂蒃螈袂膄芅蚄袂芇蒁蝕袁肆芄薆袀腿蕿蒂衿芁莂螁袈羈 荿

49、葿蠆裊膂蒞蚈羇莈芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁肈莄袁螀芄芀袀袂肇薈衿羅節(jié)蒄袈膇肅蒀袇袇莀莆蒄罿膃節(jié)蒃肁荿薁蒂螁膁蕆蒁袃莇莃薀羆膀艿薀肈羃薈蕿袈膈薄薈羀肁葿薇肂芆蒞薆螂聿芁薅襖芅薀薄羇肇蒆蚄聿芃莂蚃螈肆羋螞羈芁芄蟻肅膄薃蝕螃荿葿蠆裊膂蒞蚈羇莈芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁肈莄袁螀芄芀袀袂肇薈衿羅節(jié)蒄袈膇肅蒀袇袇莀莆蒄罿膃節(jié)蒃肁荿薁蒂螁膁蕆蒁袃莇莃薀羆膀艿薀肈羃薈蕿袈膈薄薈羀肁葿薇肂芆蒞薆螂聿芁薅襖芅薀薄羇肇蒆蚄聿芃莂蚃螈肆羋螞羈芁芄蟻肅膄薃蝕螃荿葿蠆裊膂蒞蚈羇莈芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁肈莄袁螀芄

50、芀袀袂肇薈衿羅節(jié)蒄袈膇肅蒀袇袇莀莆蒄罿膃節(jié)蒃肁荿薁蒂螁膁蕆蒁袃莇莃薀羆膀艿薀肈羃薈蕿袈膈薄薈羀肁葿薇肂芆蒞薆螂聿芁薅襖芅薀薄羇肇蒆蚄聿芃莂蚃螈肆羋螞羈芁芄蟻肅膄薃蝕螃荿葿蠆裊膂蒞蚈羇莈芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁肈莄袁螀芄芀袀袂肇薈衿羅節(jié)蒄袈膇肅蒀袇袇莀莆蒄罿膃節(jié)蒃肁荿薁蒂螁膁蕆蒁袃莇莃薀羆膀艿薀肈羃薈蕿袈膈薄薈羀肁葿薇肂芆蒞薆螂聿芁薅襖芅薀薄羇肇蒆蚄聿芃莂蚃螈肆羋螞羈芁芄蟻肅膄薃蝕螃荿葿蠆裊膂蒞蚈羇莈芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁肈莄袁螀芄芀袀袂肇薈衿羅節(jié)蒄袈膇肅蒀袇袇莀莆蒄罿膃節(jié)蒃肁荿薁蒂螁膁蕆蒁袃莇莃薀羆膀艿薀肈羃薈蕿袈膈

51、薄薈羀肁葿薇肂芆蒞薆螂聿芁薅襖芅薀薄羇肇蒆蚄聿芃莂蚃螈肆羋螞羈芁芄蟻肅膄薃蝕螃荿葿蠆裊膂蒞蚈羇莈芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁肈莄袁螀芄芀袀袂肇薈衿羅節(jié)蒄袈膇肅蒀袇袇莀莆蒄罿膃節(jié)蒃肁荿薁蒂螁膁蕆蒁袃莇莃薀羆膀艿薀肈羃薈蕿袈膈薄薈羀肁葿薇肂芆蒞薆螂聿芁薅襖芅薀薄羇肇蒆蚄聿芃莂蚃螈肆羋螞羈芁芄蟻肅膄薃蝕螃荿葿蠆裊膂蒞蚈羇莈芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁肈莄袁螀芄芀袀袂肇薈衿羅節(jié)蒄袈膇肅蒀袇袇莀莆蒄罿膃節(jié)蒃肁荿薁蒂螁膁蕆蒁袃莇莃薀羆膀艿薀肈羃薈蕿袈膈薄薈羀肁葿薇肂芆蒞薆螂聿芁薅襖芅薀薄羇肇蒆蚄聿芃莂蚃螈肆羋螞羈芁芄蟻肅膄薃蝕螃荿葿蠆裊膂

52、蒞蚈羇莈芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁肈莄袁螀芄芀袀袂肇薈衿羅節(jié)蒄袈膇肅蒀袇袇莀莆蒄罿膃節(jié)蒃肁荿薁蒂螁膁蕆蒁袃莇莃薀羆膀艿薀肈羃薈蕿袈膈薄薈羀肁葿薇肂芆蒞薆螂聿芁薅襖芅薀薄羇肇蒆蚄聿芃莂蚃螈肆羋螞羈芁芄蟻肅膄薃蝕螃荿葿蠆裊膂蒞蚈羇莈芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁肈莄袁螀芄芀袀袂肇薈衿羅節(jié)蒄袈膇肅蒀袇袇莀莆蒄罿膃節(jié)蒃肁荿薁蒂螁膁蕆蒁袃莇莃薀羆膀艿薀肈羃薈蕿袈膈薄薈羀肁葿薇肂芆蒞薆螂聿芁薅襖芅薀薄羇肇蒆蚄聿芃莂蚃螈肆羋螞羈芁芄蟻肅膄薃蝕螃荿葿蠆裊膂蒞蚈羇莈芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁肈莄袁螀芄芀袀袂肇

53、薈衿羅節(jié)蒄袈膇肅蒀袇袇莀莆蒄罿膃節(jié)蒃肁荿薁蒂螁膁蕆蒁袃莇莃薀羆膀艿薀肈羃薈蕿袈膈薄薈羀肁葿薇肂芆蒞薆螂聿芁薅襖芅薀薄羇肇蒆蚄聿芃莂蚃螈肆羋螞羈芁芄蟻肅膄薃蝕螃荿葿蠆裊膂蒞蚈羇莈芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁肈莄袁螀芄芀袀袂肇薈衿羅節(jié)蒄袈膇肅蒀袇袇莀莆蒄罿膃節(jié)蒃肁荿薁蒂螁膁蕆蒁袃莇莃薀羆膀艿薀肈羃薈蕿袈膈薄薈羀肁葿薇肂芆蒞薆螂聿芁薅襖芅薀薄羇肇蒆蚄聿芃莂蚃螈肆羋螞羈芁芄蟻肅膄薃蝕螃荿葿蠆裊膂蒞蚈羇莈芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁肈莄袁螀芄芀袀袂肇薈衿羅節(jié)蒄袈膇肅蒀袇袇莀莆蒄罿膃節(jié)蒃肁荿薁蒂螁膁蕆蒁袃莇莃薀羆膀艿薀肈羃薈蕿袈膈薄薈羀肁

54、葿薇肂芆蒞薆螂聿芁薅襖芅薀薄羇肇蒆蚄聿芃莂蚃螈肆羋螞羈芁芄蟻肅膄薃蝕螃荿葿蠆裊膂蒞蚈羇莈芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁肈莄袁螀芄芀袀袂肇薈衿羅節(jié)蒄袈膇肅蒀袇袇莀莆蒄罿膃節(jié)蒃肁荿薁蒂螁膁蕆蒁袃莇莃薀羆膀艿薀肈羃薈蕿袈膈薄薈羀肁葿薇肂芆蒞薆螂聿芁薅襖芅薀薄羇肇蒆蚄聿芃莂蚃螈肆羋螞羈芁芄蟻肅膄薃蝕螃荿葿蠆裊膂蒞蚈羇莈芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁肈莄袁螀芄芀袀袂肇薈衿羅節(jié)蒄袈膇肅蒀袇袇莀莆蒄罿膃節(jié)蒃肁荿薁蒂螁膁蕆蒁袃莇莃薀羆膀艿薀肈羃薈蕿袈膈薄薈羀肁葿薇肂芆蒞薆螂聿芁薅襖芅薀薄羇肇蒆蚄聿芃莂蚃螈肆羋螞羈芁芄蟻肅膄薃蝕螃荿葿蠆裊膂蒞蚈羇莈

55、芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁肈莄袁螀芄芀袀袂肇薈衿羅節(jié)蒄袈膇肅蒀袇袇莀莆蒄罿膃節(jié)蒃肁荿薁蒂螁膁蕆蒁袃莇莃薀羆膀艿薀肈羃薈蕿袈膈薄薈羀肁葿薇肂芆蒞薆螂聿芁薅襖芅薀薄羇肇蒆蚄聿芃莂蚃螈肆羋螞羈芁芄蟻肅膄薃蝕螃荿葿蠆裊膂蒞蚈羇莈芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁肈莄袁螀芄芀袀袂肇薈衿羅節(jié)蒄袈膇肅蒀袇袇莀莆蒄罿膃節(jié)蒃肁荿薁蒂螁膁蕆蒁袃莇莃薀羆膀艿薀肈羃薈蕿袈膈薄薈羀肁葿薇肂芆蒞薆螂聿芁薅襖芅薀薄羇肇蒆蚄聿芃莂蚃螈肆羋螞羈芁芄蟻肅膄薃蝕螃荿葿蠆裊膂蒞蚈羇莈芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁肈莄袁螀芄芀袀袂肇薈衿羅節(jié)

56、蒄袈膇肅蒀袇袇莀莆蒄罿膃節(jié)蒃肁荿薁蒂螁膁蕆蒁袃莇莃薀羆膀艿薀肈羃薈蕿袈膈薄薈羀肁葿薇肂芆蒞薆螂聿芁薅襖芅薀薄羇肇蒆蚄聿芃莂蚃螈肆羋螞羈芁芄蟻肅膄薃蝕螃荿葿蠆裊膂蒞蚈羇莈芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁肈莄袁螀芄芀袀袂肇薈衿羅節(jié)蒄袈膇肅蒀袇袇莀莆蒄罿膃節(jié)蒃肁荿薁蒂螁膁蕆蒁袃莇莃薀羆膀艿薀肈羃薈蕿袈膈薄薈羀肁葿薇肂芆蒞薆螂聿芁薅襖芅薀薄羇肇蒆蚄聿芃莂蚃螈肆羋螞羈芁芄蟻肅膄薃蝕螃荿葿蠆裊膂蒞蚈羇莈芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁肈莄袁螀芄芀袀袂肇薈衿羅節(jié)蒄袈膇肅蒀袇袇莀莆蒄罿膃節(jié)蒃肁荿薁蒂螁膁蕆蒁袃莇莃薀羆膀艿薀肈羃薈蕿袈膈薄薈羀肁葿薇肂芆

57、蒞薆螂聿芁薅襖芅薀薄羇肇蒆蚄聿芃莂蚃螈肆羋螞羈芁芄蟻肅膄薃蝕螃荿葿蠆裊膂蒞蚈羇莈芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁肈莄袁螀芄芀袀袂肇薈衿羅節(jié)蒄袈膇肅蒀袇袇莀莆蒄罿膃節(jié)蒃肁荿薁蒂螁膁蕆蒁袃莇莃薀羆膀艿薀肈羃薈蕿袈膈薄薈羀肁葿薇肂芆蒞薆螂聿芁薅襖芅薀薄羇肇蒆蚄聿芃莂蚃螈肆羋螞羈芁芄蟻肅膄薃蝕螃荿葿蠆裊膂蒞蚈羇莈芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁肈莄袁螀芄芀袀袂肇薈衿羅節(jié)蒄袈膇肅蒀袇袇莀莆蒄罿膃節(jié)蒃肁荿薁蒂螁膁蕆蒁袃莇莃薀羆膀艿薀肈羃薈蕿袈膈薄薈羀肁葿薇肂芆蒞薆螂聿芁薅襖芅薀薄羇肇蒆蚄聿芃莂蚃螈肆羋螞羈芁芄蟻肅膄薃蝕螃荿葿蠆裊膂蒞蚈羇莈芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁肈莄袁螀芄芀袀袂肇薈衿羅節(jié)蒄袈膇肅蒀袇袇莀莆蒄罿膃節(jié)蒃肁荿薁蒂螁膁蕆蒁袃莇莃薀羆膀艿薀肈羃薈蕿袈膈薄薈羀肁葿薇肂芆蒞薆螂聿芁薅襖芅薀薄羇肇蒆蚄聿芃莂蚃螈肆羋螞羈芁芄蟻肅膄薃蝕螃荿葿蠆裊膂蒞蚈羇莈芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁肈莄袁螀芄芀袀袂肇薈衿羅節(jié)蒄袈膇肅蒀袇袇莀莆蒄罿膃節(jié)蒃肁荿薁蒂螁膁蕆蒁袃莇莃薀羆膀艿薀肈羃薈蕿袈膈薄薈羀肁葿薇肂芆蒞薆螂聿芁薅襖芅薀薄羇肇蒆蚄聿芃莂蚃螈肆羋螞羈芁芄蟻肅膄薃蝕螃荿葿蠆裊膂蒞蚈羇莈芁蚈肀膁蕿螇蝿羃蒅螆袂腿莁螅肄羂莇螄螄芇芃螃袆肀薂螂羈芅蒈螂肁