• 
<tr id="yyy80"></tr>
    • <sup id="yyy80"></sup>
  • 

    <tfoot id="yyy80"><noscript id="yyy80"></noscript></tfoot>
  • 
99热精品在线国产_美女午夜性视频免费_国产精品国产高清国产av_av欧美777_自拍偷自拍亚洲精品老妇_亚洲熟女精品中文字幕_www日本黄色视频网_国产精品野战在线观看 
?
    
	
    
		
		
		
	
    

    

    
    
    
    
    
        
    
            
    Synthesis and Properties of Guanidinium Salts of 5-(3-Aminofurazan-4-yl)tetrazol-1-ol
    
                
    2017-06-28 14:19:58ZHAILianjieWANGBozhouBIFuqiangHUOHuanLIYananFANXuezhong
    
                
    火炸藥學(xué)報 2017年3期 
    關(guān)鍵詞:呋咱落錘感度
    
                    
    ZHAI Lian-jie, WANG Bo-zhou, BI Fu-qiang, HUO Huan, LI Ya-nan, FAN Xue-zhong
    (1.Xi′an Modern Chemistry Research Institute, Xi′an 710065, China;2.State Key Laboratory of Fluorine & Nitrogen Chemicals, Xi′an 710065, China)
    Synthesis and Properties of Guanidinium Salts of 5-(3-Aminofurazan-4-yl)tetrazol-1-ol
    ZHAI Lian-jie1,2, WANG Bo-zhou1,2, BI Fu-qiang1,2, HUO Huan1,2, LI Ya-nan1,2, FAN Xue-zhong1
    (1.Xi′an Modern Chemistry Research Institute, Xi′an 710065, China;2.State Key Laboratory of Fluorine & Nitrogen Chemicals, Xi′an 710065, China)
    The guanidinium (2), diaminoguanidinium (3), and guanidylguanidinium (4) salts of 5-(3-aminofurazan-4-yl)tetrazol-1-ol (1) were synthesized with a high yield using malononitrile as raw material, and their structures were characterized by IR, NMR, elemental analysis and thermal analysis. The single crystals of salts 2 and 3 were cultured and their structures were tested by X-ray single-crystal diffraction. The impact and friction sensitivities of three kinds of guanidinium salts were tested using the drop hammer method and friction sensitivity tester,and their thermal decomposition process was studied by DSC. The results show that three kinds of guanidinium salts exhibit the impact sensitivity greater than 24J and friction sensitivity greater than 360N and decomposition temperature between 266 and 277℃, revealing good thermal stability.
    nitrogen-rich salts;furazan compound;guanidinium salt;azole compound;X-ray single-crystal diffraction
    Introduction
    The rational design of new energetic materials with high properties has been one of the most challenging tasks in the field of advanced materials[1]. Recent studies on C-C connected heterocycles based on 3- or 4-substituted furazans or furoxans revealed excellent characteristics regarding stability and detonation properties. Examples for these kinds of molecules are 4-amino-3-(5-tetrazole)furazan(furoxan)[2-3], 3,4-bis(1H-5-tetrazolyl)furazan(furoxan)[4-5], 3,4-bis(1-hydroxytetrazolyl)furazan(furoxan)[6], 3,3’-diamino-4,4’-bisfurazan(furoxan)[7-8], and recently published 3-nitroamino-4-(5-nitroamino-1,2,4-oxadiazole- 3-yl)furazan and 3,5-bis(4-nitroaminofurazan- 3-yl)-1,2,4-oxadiazole[9], etc. The C-C combination of 3- or 4-substituted furazans or furoxans with a tetrazole orN-hydroxy-tetrazole moiety benefits from the energetic tetrazole ring, the higher stability of the furazan ring, and the second carbon atom of the furazan or furoxan, which can be substituted with various energetic groups like amino, nitro, nitramino, or azido. Furthermore, the tetrazole or N-hydroxy-tetrazole moieties carry an acidic proton, thus enabling the formation of energetic salts by Brφnsted acid-base or salt metathesis reactions. The cations can be either nitrogen-rich bases like ammonia, hydrazine, and guanidines, or various metals, mainly alkali, alkaline earth.
    In our continuing efforts to seek more powerful, less sensitive, eco-friendly and low-cost energetic materials, we were interested in some furazan-functionalized azolate-based (triazole, tetrazole and its N-oxides) salts that contain a high percentage of both oxygen and nitrogen. In this paper, we report our results on the synthesis, full analytical and spectroscopic characterization, energetic properties and X-ray structures of nitrogen-rich salts of the 5-(3-aminofurazan-4-yl)tetrazol-1-olate; the salts are less sensitive to impact and friction as well as display significant physical and energetic properties.
    1 Experimental
    1.1 Materials
    Compounds 4-aminofurazan-3-carboxamidoxime and 4-aminofurazan-3-chloroxime were prepared with a high yield according to the literature procedure[10-11]. Other chemicals were analytically pure and obtained from commercial sources.
    1.2 Synthesis
    The synthetic pathway to the new energetic salts is shown in Fig.1.
    1.2.1 5-(3-aminofurazan-4-yl)tetrazol-1-ol (1)
    1.2.2Guanidinium5-(3-aminofurazan-4-yl)tetrazol-1-ol-ate(2)
    1.2.3Diaminoguanidinium5-(3-aminofurazan-4-yl) -tetrazol-1-olate(3)
    1.2.4Guanidylguanidinium5-(3-aminofurazan-4-yl) -tetrazol-1-olate(4)
    1.3Determinationofperformance
    Themeltinganddecompositionpoints(onsettemperature)wereobtainedonadifferentialscanningcalorimeter(TAInstrumentsCompany,ModelDSC-Q200)ataflowrateof50mL/min.About0.3mgofthesamplewassealedinaluminumpansforDSC.InfraredspectrawereobtainedfromKBrpelletsonaNicoletNEXUS870Infraredspectrometerintherangeof4000-400cm-1.Elementalanalyses(C,HandN)wereperformedonaVARI-El-3elementaryanalysisinstrument.ThesensitivitytoimpactstimuliwasdeterminedbyfallingHammerapparatus,applyingastandardmethodusinga2kgdropweight.ThefrictionsensitivityofthecompoundwasdeterminedusingaJuliusPetersapparatus.Thesamplemassusedforeachtestisabout20mg.
    1.4CrystallographicMeasurements
    Singlecrystalsfor2and3areobtainedfromtheaqueoussolutions,andX-raydiffractiondatawerecollectedwithaBrukerSMARTApexIICCDX-raydiffractometerequippedwithagraphite-monochromatizedMoKαradiation(λ= 0.071073nm).ThestructuresweresolvedeitherwithSHELXS-97[12],refinedwithSHELXL-97[13].Thefull-matrixleast-squaresrefinementonF2includedatomiccoordinatesandanisotropicthermalparametersforallnon-Hatoms.TheHatomswerefoundandrefined.CCDC-1444343 (for2),and-1444344 (for3)containthesupplementarycrystallographicdataforthispaper.
    2 Results and Discussion
    2.1Synthesisprocedure
    4-Aminofurazan-3-carboxamidoximewasreadilysynthesizedthroughthereactionofmalononitrile,sodiumnitrite,andhydroxylamine,andwasthentreatedwithsodiumnitriteinaqueousHCltogivethechloroxime[10-11].ThechlorineatomsaresubstitutedbysodiumazideinDMFtoform4-aminofurazan-3-azidoglyoxime,whichisconvertedtotheneutralcompound1indiethylethercatalyzedbyHClgas[14].Inordertoovercometheproblemofisolatingthesensitive4-aminofurazan-3-azidoglyoximeandincreasetheyieldofcompound1,afacileone-potreactionisemployedtosafelyandeasilyperformthecyclizationreactionstartingfrom4-aminofurazan-3-carbohydroxamoylchlorideinvolvingthechloro-azidoexchangeinDMFandsubsequentcyclization,whereasthewholemixtureispouredontoicewater,extractedintodiethyletherandHClgasisbubbledthroughitaffordingtheneutralcompound1.Preparationofthecorrespondingsaltsof2-4waseasilyaccomplishedbydiluting1inmethanolandadditionofoneequivalentofthecorrespondingorganicbase.Thisstepbenefitsfromtheverypoorsolubilityoftheionictargetmolecules,contrarytotheneutralones,whichdissolvereadilyinmethanol.Precipitationofthedesiredioniccompoundsoccurredalmostquantitativeandledtohighpurities.
    2.2X-Raycrystallography
    Compound2·H2Ocouldonlybeobtainedinthecrystallineformwithinclusionofonecrystalwatermolecule.ItcrystallizesincolorlessplateletsinthetriclinicspacegroupP-1withtwoformulaunitsintheunitcellandadensityof1.598g/cm3at293K.AsshowninFig.2,the1-hydroxytetrazoleringandthefuroxanringarenearlyplanarwithadihedralanglebetweenthemof1.6°.TheC-NandN-NsingleanddoublebondswithintheazoleringsareallintherangeofformalC-NandN-Nsingleanddoublebonds(C-N: 0.147nm, 0.122nm;N-N: 0.148nm, 0.120nm)[15].TheN-Obondlength[O2-N7: 0.1312(22)nm]oftheN-hydroxygroupissilghtlyshorterthantheN-Odistancesinthefurazanring[O1-N3: 0.1374nm,O1-N2: 0.1403nm].ThetransferoftheprotonfromtheN-hydroxytetrazoletoaminewasconfirmedbythecrystaldata.Sincetheaminoisexcellenthydrogen-bondingdonors,thediscrete2arelinkedintoa2Ddoublelayerbythehydrogen-bondinginteractionsbetweenguanidiniumcationsand1anions[N1-H1A…O2i: 0.2913nm;N9-H9B…N3ii: 0.3249nm.Symmetrycodes:i: -x-1, -y+1, -z+1;] (Fig.2).The3Dnetworkofthestructureisformedfurtherbythehydrogen-bondinginteractionsfromwatermoleculesandadjacentlayers.
    Diaminoguanidinium salt 3 crystallizes in the monoclinic space group Cc with four formula units in the unit cell. The calculated density of 3 (1.643 g/cm3) is significantly higher than that found for 2·H2O (1.598 g/cm3). As can be seen from Fig.3, the asymmetric unit contains one independent 1 anion and one diaminoguanidinium cation, in which proton transfer from theN-hydroxy tetrazole to ammonia was also confirmed. The coordination geometry of a single anion consists of interactions with four diaminoguanidinium cations and three 1 anions.
    2.3 Thermal behavior
    The thermal behaviors of 2-4 are determined by DSC at a heating rate of 10℃/min and their DSC curves are depicted in Fig.4.
    All salts melt prior to decomposition with melting points ranging from 163℃ for 3 to 223℃ for 4. Moreover, the salts exhibit excellent thermal stabilities with thermal decomposition temperatures (Td) in the range of 266 to 277℃, which are higher than that of 1,3,5-trinitro-1,3,5-triazinane (RDX) (Td=210℃). Guanidylguanidinium salt 4 is the most thermally stable (Td=277℃), which most likely arises from four strong hydrogen bonds. For guanidinium salt 2, its DSC curve shows a small endothermic peak at 95℃, corresponding to the loss of crystal water.
    2.4 Sensitivities
    The nitrogen-rich salts are quite insensitive explosives. The impact sensitivities of 2-4 are more than 24J, possibly due to the extensive hydrogen-bonding interactions between the cations and anions after salt formation. Friction sensitivity is also quite low (>360 N) for all salts.
    3 Conclusions
    (1) The guanidinium, diaminoguanidinium, and guanidylguanidinium salts of 5-(3-aminofurazan-4-yl) tetrazol-1-ol were synthesized and characterized.
    (2) The structures of 2 and 3 were confirmed by X-ray single-crystal diffraction, which show that there are extensive hydrogen-bonding interactions between the cations and anions in these salts. It is the intramolecular and intermolecular hydrogen bonds that play a pivotal role in molecular density, thermal stability and sensitivity.
    (3) All the nitrogen-rich salts show good thermal stabilities (decomposition temperature between 266 and 277℃), low impact sensitivities (24J), revealing that salts 2-4 can be used as insensitive energetic materials with excellent thermal stabilities.
    [1] Badgujar D M, Talawar M B, Asthana S N, et al. Advances in science and technology of modern energetic materials: An overview[J]. Journal of Hazardous Materials, 2008, 151(2): 289-305.
    [2] Wang Rui-hu, Guo Yong, Zeng Zhuo, et al. Furazan-functionalized tetrazolate-based salts: a new family of insensitive energetic materials[J]. Chemistry - A European Journal, 2009, 15(11): 2625-2634.
    [3] Liang Li-xuan, Wang Kai, Bian Cheng-ming, et al. 4-Nitro-3-(5-tetrazole)furoxan and its salts: synthesis, characterization, and energetic properties[J]. Chemistry - A European Journal, 2013, 19(44): 14902-14910.
    [4] Huang Hai-feng, Zhou Zhi-ming, Liang Li-xuan, et al. Nitrogen-rich energetic monoanionic salts of 3,4-bis(1H-5-tetrazolyl)furoxan[J]. Chemistry - An Asian Journal, 2012, 7(4): 707-714.
    [5] Godovikova T I, Vorontsova S K, Konyushkin L D, et al. Synthesis of 5-(1,2,5-oxadiazol-3-yl)-1H-etrazoles from 3-cyano-1,2,5-oxadiazoles[J]. Russian Chemical Bulletin International Edition, 2009, 58(2): 406-409.
    [6] Fischer D, Klap?tke T M, Reymann M, et al. Energetic alliance of tetrazole-1-oxides and 1,2,5-oxadiazoles[J]. New Journal Chemistry,2015, 39, 1619-1627.
    [7] Fischer D, Klap?tke T M, Reymann M, et al. Dense energetic nitraminofurazanes[J]. Chemistry - A European Journal, 2014, 20(21): 6401-6411.
    [8] Fischer D, Klap?tke T M, Stierstorfer J. Synthesis and characterization of diaminobisfuroxane[J]. European Journal of Inorganic Chemistry, 2014, 2014(29):5808-5811.
    [9] WEI Hao, HE Chun-lin, ZHANG Jia-heng, et al. Combination of 1,2,4-oxadiazole and 1,2,5oxadiazole moieties for the generation of high-performance energetic materials[J]. Angewandte Chemie International Edition, 2015, 54(32): 9367-9371.
    [10] Martinez H, Zheng Z Y, Dolbier Jr R D, et al. Energetic materials containing fluorine. Design, synthesis and testing of furazan-containing energetic materials bearing a pentafluorosulfanyl group[J]. Journal of Fluorine Chemistry, 2012, 143:112-122.
    [11] Tsyshevsky R, Pagoria P, ZHANG Mao-xi, et al. Searching for low-sensitivity cast-melt high-energy-density materials: synthesis, characterization, and decomposition kinetics of 3,4-bis(4-nitro-1,2,5-oxadiazol-3-yl)-1,2,5-oxadiazole-2-oxide[J]. Journal of Physical Chemistry C, 2015, 119(7): 3509-3521.
    [12] Sheldrick G M. SHELXS-97, Program for X-ray crystal structure determination[CP/CD]. G?ttingen: University of G?ttingen, 1997.
    [13] Sheldrick G M. SHELXL-97, Program for the refinement of crystal structures[CP/CD]. G?ttingen: University of G?ttingen 1997.
    [14] Tselinskii I V, Mel’nikova S F, Romanova T V, et al. Synthesis and reactivity of carbohydroximoyl azides: II. 4-substituted 1,2,5-oxadiazole-3-carbohydroximoyl azides and 1-hydroxy-5-(4-R-1,2,5-oxadiazol-3-yl)tetrazoles[J]. Russian Journal of Organic Chemistry, 2001, 37(11): 1638-1642.
    [15] Allen F H, Kennard O, Watson D G, et al. Tables of bond lengths determined by X-ray and neutron diffraction. Part 1. Bond lengths in organic compounds[J]. Journal of the Chemical Society, Perkin Transactions 2, 1987, 1(12):1-19.
    5-(3-氨基呋咱-4-基)-1-羥基四唑胍鹽的合成及性能研究
    翟連杰1,2, 王伯周1,2, 畢福強(qiáng)1,2, 霍 歡1,2, 李亞南1,2, 樊學(xué)忠1
    (1. 西安近代化學(xué)研究所, 陜西 西安 710065;2. 氟氮化工資源高效開發(fā)與利用國家重點實驗室,陜西 西安 710065)
    以丙二腈為原料,高收率合成了5-(3-氨基呋咱-4-基)-1-羥基四唑(1)的胍鹽(2)、二氨基胍(3)以及聯(lián)胍鹽(4)。采用紅外光譜、核磁共振、元素分析、熱分析等對其結(jié)構(gòu)進(jìn)行了表征;培養(yǎng)了2和3的單晶,并采用X射線單晶衍射測試了其晶體結(jié)構(gòu);通過落錘法和摩擦感度儀測試了3種胍鹽的撞擊感度和摩擦感度;采用DSC研究了3種胍鹽的熱分解過程。結(jié)果表明,3種胍鹽的撞擊感度均大于24J,摩擦感度均大于360N,分解點介于266~277℃,顯示出良好的熱穩(wěn)定性。
    富氮鹽;呋咱化合物;胍鹽;唑類化合物;X射線單晶衍射
    10.14077/j.issn.1007-7812.2017.03.002
    date:2016-06-17; Revised date:2016-09-11
    TJ55;O65 Document Code:A Article ID:1007-7812(2017)03-0017-04
    Foundation:Natural Science Foundation of China (No.21243007)
    Biography:ZHAI Lian-jie(1988-), male, doctoral candidate. Research field: Synthesis and properties of energetic materials. E-mail: trihever0210@126.com
    

    
                        
    猜你喜歡
    
                        
    呋咱落錘感度
    
                        
    基于機(jī)器學(xué)習(xí)的RDX-CMDB推進(jìn)劑安全性能預(yù)測
    呋咱環(huán)構(gòu)建策略及其含能化合物合成研究進(jìn)展
    運用三維離散元技術(shù)模擬落錘撞擊下奧克托今顆粒的點火燃燒過程
    落錘試樣裂紋源焊道焊接工藝試驗研究
    3,4-二(氟二硝甲基)氧化呋咱: 一種高密度氧化劑
    火工品(2019年3期)2019-09-02 05:48:22
    3, 3′-二(四唑-5-基) -4, 4′-偶氮氧化呋咱的合成及性能預(yù)估
    手持式落錘彎沉儀在公路路基彎沉檢測中的應(yīng)用研究
    中國公路(2017年17期)2017-11-09 02:25:37
    高感度活性稀釋劑丙烯酰嗎啉的合成研究
    FOX-7晶體形貌對感度的影響
    多因素預(yù)測硝基化合物的撞擊感度
    
                    
    
            
    
        
    
        
        
    
    
    

    










最近最新中文字幕大全电影3|
欧美激情国产日韩精品一区|
成人av一区二区三区在线看|
亚洲18禁久久av|
天天躁日日操中文字幕|
亚洲av电影不卡..在线观看|
欧美乱色亚洲激情|
国产三级中文精品|
五月玫瑰六月丁香|
桃红色精品国产亚洲av|
九色国产91popny在线|
精品福利观看|
国产av在哪里看|
亚州av有码|
18美女黄网站色大片免费观看|
极品教师在线视频|
色5月婷婷丁香|
久久久久九九精品影院|
蜜桃久久精品国产亚洲av|
少妇的逼水好多|
1000部很黄的大片|
亚洲精品粉嫩美女一区|
欧美成狂野欧美在线观看|
直男gayav资源|
亚洲最大成人中文|
在线观看一区二区三区|
欧美zozozo另类|
国产单亲对白刺激|
欧美精品啪啪一区二区三区|
久久精品夜夜夜夜夜久久蜜豆|
日本免费a在线|
亚洲人成伊人成综合网2020|
国产伦在线观看视频一区|
亚洲av成人不卡在线观看播放网|
国产成人福利小说|
可以在线观看的亚洲视频|
精品99又大又爽又粗少妇毛片
|
国产一区二区三区在线臀色熟女|
国产精品女同一区二区软件
|
a在线观看视频网站|
一边摸一边抽搐一进一小说|
欧美3d第一页|
欧美一级a爱片免费观看看|
国产精品野战在线观看|
久久久久久久久久成人|
麻豆成人av在线观看|
中文亚洲av片在线观看爽|
成人av一区二区三区在线看|
3wmmmm亚洲av在线观看|
丰满的人妻完整版|
a级毛片免费高清观看在线播放|
国内毛片毛片毛片毛片毛片|
毛片一级片免费看久久久久
|
男女之事视频高清在线观看|
毛片女人毛片|
精品无人区乱码1区二区|
老女人水多毛片|
成人欧美大片|
国产乱人视频|
制服丝袜大香蕉在线|
两人在一起打扑克的视频|
免费av观看视频|
国产三级中文精品|
亚洲av一区综合|
又爽又黄无遮挡网站|
熟妇人妻久久中文字幕3abv|
亚洲美女视频黄频|
欧美成狂野欧美在线观看|
国产成人a区在线观看|
久久精品91蜜桃|
日韩欧美三级三区|
狂野欧美白嫩少妇大欣赏|
国产精品人妻久久久久久|
嫩草影视91久久|
舔av片在线|
色视频www国产|
好看av亚洲va欧美ⅴa在|
亚洲真实伦在线观看|
听说在线观看完整版免费高清|
三级毛片av免费|
看黄色毛片网站|
精品人妻1区二区|
亚洲狠狠婷婷综合久久图片|
91麻豆av在线|
亚洲精品一卡2卡三卡4卡5卡|
99久久精品热视频|
国产真实乱freesex|
窝窝影院91人妻|
在线观看av片永久免费下载|
少妇裸体淫交视频免费看高清|
51国产日韩欧美|
看黄色毛片网站|
2021天堂中文幕一二区在线观|
国产精品女同一区二区软件
|
国产精品一区二区三区四区免费观看
|
亚洲欧美激情综合另类|
91在线观看av|
久久精品夜夜夜夜夜久久蜜豆|
精品久久久久久久末码|
丰满人妻熟妇乱又伦精品不卡|
内射极品少妇av片p|
午夜视频国产福利|
国产69精品久久久久777片|
九色国产91popny在线|
久久精品国产亚洲av涩爱
|
国产在线男女|
亚洲最大成人中文|
h日本视频在线播放|
婷婷亚洲欧美|
中文亚洲av片在线观看爽|
日本成人三级电影网站|
亚洲精品一区av在线观看|
www.色视频.com|
最近视频中文字幕2019在线8|
一夜夜www|
国产麻豆成人av免费视频|
老司机福利观看|
精品一区二区三区av网在线观看|
老司机深夜福利视频在线观看|
国产精品久久久久久久电影|
欧美bdsm另类|
亚洲性夜色夜夜综合|
国产v大片淫在线免费观看|
国产精品1区2区在线观看.|
香蕉av资源在线|
av女优亚洲男人天堂|
午夜免费男女啪啪视频观看
|
欧美+亚洲+日韩+国产|
国产精品精品国产色婷婷|
色综合欧美亚洲国产小说|
中文资源天堂在线|
久久婷婷人人爽人人干人人爱|
男人的好看免费观看在线视频|
九色国产91popny在线|
ponron亚洲|
18禁在线播放成人免费|
一本精品99久久精品77|
12—13女人毛片做爰片一|
舔av片在线|
91麻豆av在线|
精品久久久久久久久av|
一本久久中文字幕|
国产在线男女|
国产免费av片在线观看野外av|
欧美成狂野欧美在线观看|
在线国产一区二区在线|
一进一出好大好爽视频|
日本黄色片子视频|
国产一区二区三区视频了|
十八禁网站免费在线|
欧美成人一区二区免费高清观看|
亚洲av一区综合|
丁香欧美五月|
男女床上黄色一级片免费看|
欧美日韩乱码在线|
日韩有码中文字幕|
久久久久国产精品人妻aⅴ院|
久久中文看片网|
三级毛片av免费|
在线十欧美十亚洲十日本专区|
丰满的人妻完整版|
欧美丝袜亚洲另类
|
老司机深夜福利视频在线观看|
丰满的人妻完整版|
欧美黄色淫秽网站|
成人特级黄色片久久久久久久|
亚洲精品粉嫩美女一区|
国产v大片淫在线免费观看|
在线天堂最新版资源|
丰满乱子伦码专区|
国产综合懂色|
欧美日本亚洲视频在线播放|
嫩草影院精品99|
亚州av有码|
欧美日韩综合久久久久久
|
国产精品电影一区二区三区|
天天一区二区日本电影三级|
国产乱人伦免费视频|
无遮挡黄片免费观看|
国产一区二区亚洲精品在线观看|
午夜精品久久久久久毛片777|
国产v大片淫在线免费观看|
国产色婷婷99|
netflix在线观看网站|
精品一区二区三区人妻视频|
精品久久久久久,|
久久人人爽人人爽人人片va
|
国产大屁股一区二区在线视频|
波多野结衣巨乳人妻|
999久久久精品免费观看国产|
精品午夜福利在线看|
国产麻豆成人av免费视频|
一本综合久久免费|
人妻夜夜爽99麻豆av|
香蕉av资源在线|
亚洲五月天丁香|
老师上课跳d突然被开到最大视频
久久午夜综合久久蜜桃
|
午夜福利在线观看免费完整高清在
|
国产精品日韩av在线免费观看|
日本撒尿小便嘘嘘汇集6|
日韩精品中文字幕看吧|
国产精品一及|
日韩亚洲欧美综合|
99久久精品一区二区三区|
国产高清视频在线播放一区|
色哟哟·www|
欧美激情在线99|
美女高潮的动态|
国产在线男女|
99久久久亚洲精品蜜臀av|
国产精品,欧美在线|
51午夜福利影视在线观看|
国产精品伦人一区二区|
亚洲国产日韩欧美精品在线观看|
神马国产精品三级电影在线观看|
亚洲精品粉嫩美女一区|
久久久国产成人免费|
亚洲av成人精品一区久久|
久久精品91蜜桃|
亚洲18禁久久av|
简卡轻食公司|
免费观看精品视频网站|
永久网站在线|
天堂动漫精品|
亚洲成av人片免费观看|
精品国内亚洲2022精品成人|
成人国产一区最新在线观看|
国产伦人伦偷精品视频|
免费看日本二区|
99久久99久久久精品蜜桃|
亚洲自拍偷在线|
日日干狠狠操夜夜爽|
男女那种视频在线观看|
国产真实伦视频高清在线观看
|
尤物成人国产欧美一区二区三区|
深夜a级毛片|
精品一区二区三区视频在线|
av福利片在线观看|
观看美女的网站|
国产色爽女视频免费观看|
av中文乱码字幕在线|
18美女黄网站色大片免费观看|
netflix在线观看网站|
在线免费观看的www视频|
欧美中文日本在线观看视频|
男人舔奶头视频|
一边摸一边抽搐一进一小说|
99久久九九国产精品国产免费|
欧美日韩中文字幕国产精品一区二区三区|
欧洲精品卡2卡3卡4卡5卡区|
精华霜和精华液先用哪个|
免费观看的影片在线观看|
欧美激情国产日韩精品一区|
最近视频中文字幕2019在线8|
国产在线精品亚洲第一网站|
免费av毛片视频|
国产69精品久久久久777片|
变态另类丝袜制服|
在线播放国产精品三级|
国产一区二区在线观看日韩|
久久久国产成人精品二区|
每晚都被弄得嗷嗷叫到高潮|
嫁个100分男人电影在线观看|
国产免费男女视频|
极品教师在线免费播放|
午夜日韩欧美国产|
色哟哟·www|
日韩欧美国产在线观看|
欧美又色又爽又黄视频|
成人性生交大片免费视频hd|
国产午夜福利久久久久久|
免费搜索国产男女视频|
91在线观看av|
久久久久久大精品|
精品国内亚洲2022精品成人|
99久久精品热视频|
久久精品国产99精品国产亚洲性色|
三级国产精品欧美在线观看|
久久久久九九精品影院|
小说图片视频综合网站|
日本 欧美在线|
成人永久免费在线观看视频|
国产精品爽爽va在线观看网站|
亚洲在线自拍视频|
97超视频在线观看视频|
黄色丝袜av网址大全|
久久国产乱子伦精品免费另类|
亚洲人成电影免费在线|
国产免费一级a男人的天堂|
日本 欧美在线|
国产探花极品一区二区|
久久精品综合一区二区三区|
欧美最黄视频在线播放免费|
最新中文字幕久久久久|
亚洲欧美日韩高清专用|
亚洲无线观看免费|
日本黄大片高清|
日本在线视频免费播放|
.国产精品久久|
欧美性感艳星|
日本一本二区三区精品|
久久国产乱子伦精品免费另类|
久久天躁狠狠躁夜夜2o2o|
9191精品国产免费久久|
亚洲国产欧洲综合997久久,|
国产v大片淫在线免费观看|
亚洲精品在线美女|
午夜亚洲福利在线播放|
亚洲精品乱码久久久v下载方式|
亚洲精品在线美女|
一区二区三区四区激情视频
|
日韩欧美国产一区二区入口|
午夜免费激情av|
久久久久久久久久成人|
亚洲熟妇熟女久久|
亚洲第一欧美日韩一区二区三区|
人妻夜夜爽99麻豆av|
在线播放国产精品三级|
全区人妻精品视频|
欧美一区二区国产精品久久精品|
精品午夜福利视频在线观看一区|
亚洲电影在线观看av|
俄罗斯特黄特色一大片|
国产av一区在线观看免费|
免费在线观看影片大全网站|
少妇裸体淫交视频免费看高清|
精品久久久久久久久久久久久|
在线观看av片永久免费下载|
丝袜美腿在线中文|
99热精品在线国产|
eeuss影院久久|
久久久国产成人免费|
日韩国内少妇激情av|
宅男免费午夜|
老司机午夜十八禁免费视频|
网址你懂的国产日韩在线|
丰满乱子伦码专区|
午夜久久久久精精品|
无遮挡黄片免费观看|
给我免费播放毛片高清在线观看|
美女被艹到高潮喷水动态|
日韩成人在线观看一区二区三区|
真人一进一出gif抽搐免费|
国产精品乱码一区二三区的特点|
日韩欧美三级三区|
精品久久久久久久久久免费视频|
亚洲18禁久久av|
av在线老鸭窝|
国产欧美日韩精品亚洲av|
国产精品一区二区免费欧美|
长腿黑丝高跟|
国产精品野战在线观看|
一个人免费在线观看的高清视频|
午夜免费男女啪啪视频观看
|
色综合亚洲欧美另类图片|
色av中文字幕|
久久精品国产亚洲av香蕉五月|
女人被狂操c到高潮|
人人妻人人澡欧美一区二区|
麻豆av噜噜一区二区三区|
神马国产精品三级电影在线观看|
成年免费大片在线观看|
丁香欧美五月|
亚洲欧美精品综合久久99|
丁香欧美五月|
欧美高清性xxxxhd video|
中文字幕人成人乱码亚洲影|
亚洲久久久久久中文字幕|
国内揄拍国产精品人妻在线|
精品人妻一区二区三区麻豆
|
国产一级毛片七仙女欲春2|
亚洲欧美清纯卡通|
国产午夜福利久久久久久|
欧美乱妇无乱码|
亚洲精品在线美女|
欧美日韩福利视频一区二区|
成人国产一区最新在线观看|
两人在一起打扑克的视频|
午夜影院日韩av|
女人被狂操c到高潮|
亚洲精品日韩av片在线观看|
亚洲男人的天堂狠狠|
国产精品av视频在线免费观看|
别揉我奶头 嗯啊视频|
九九久久精品国产亚洲av麻豆|
日韩欧美在线二视频|
搡女人真爽免费视频火全软件
|
午夜免费激情av|
一区二区三区激情视频|
能在线免费观看的黄片|
av在线观看视频网站免费|
欧美丝袜亚洲另类
|
国产精品自产拍在线观看55亚洲|
搞女人的毛片|
亚洲五月天丁香|
在线观看免费视频日本深夜|
久久午夜亚洲精品久久|
欧美+亚洲+日韩+国产|
aaaaa片日本免费|
国产精品影院久久|
欧美黄色淫秽网站|
精品国产三级普通话版|
观看免费一级毛片|
精品久久国产蜜桃|
18+在线观看网站|
俄罗斯特黄特色一大片|
成人国产综合亚洲|
桃红色精品国产亚洲av|
国产爱豆传媒在线观看|
欧美黄色淫秽网站|
热99在线观看视频|
久久人妻av系列|
欧美黑人欧美精品刺激|
久久久久久久久中文|
一个人免费在线观看的高清视频|
99国产精品一区二区三区|
啪啪无遮挡十八禁网站|
成人特级黄色片久久久久久久|
麻豆国产av国片精品|
国产亚洲精品久久久久久毛片|
免费观看的影片在线观看|
日韩欧美 国产精品|
可以在线观看的亚洲视频|
久久久久精品国产欧美久久久|
亚洲综合色惰|
午夜精品一区二区三区免费看|
变态另类丝袜制服|
国产伦在线观看视频一区|
欧美激情在线99|
av天堂中文字幕网|
老鸭窝网址在线观看|
日本熟妇午夜|
18禁裸乳无遮挡免费网站照片|
三级国产精品欧美在线观看|
亚洲欧美激情综合另类|
午夜a级毛片|
又爽又黄a免费视频|
亚洲18禁久久av|
小蜜桃在线观看免费完整版高清|
欧美日韩乱码在线|
在线a可以看的网站|
亚洲欧美日韩高清专用|
自拍偷自拍亚洲精品老妇|
蜜桃亚洲精品一区二区三区|
99久久精品热视频|
免费人成在线观看视频色|
久久久久久大精品|
国产精品一区二区三区四区免费观看
|
男人舔奶头视频|
国产精品伦人一区二区|
久久精品国产清高在天天线|
啦啦啦韩国在线观看视频|
乱人视频在线观看|
国产精品98久久久久久宅男小说|
麻豆国产av国片精品|
99国产极品粉嫩在线观看|
午夜精品久久久久久毛片777|
在线观看舔阴道视频|
av视频在线观看入口|
国产探花极品一区二区|
嫁个100分男人电影在线观看|
久久久久久九九精品二区国产|
国产69精品久久久久777片|
久久精品夜夜夜夜夜久久蜜豆|
国产高清三级在线|
综合色av麻豆|
成人高潮视频无遮挡免费网站|
午夜老司机福利剧场|
日韩欧美 国产精品|
麻豆av噜噜一区二区三区|
久久这里只有精品中国|
久久久精品大字幕|
超碰av人人做人人爽久久|
黄色日韩在线|
av女优亚洲男人天堂|
亚洲成人精品中文字幕电影|
一本精品99久久精品77|
露出奶头的视频|
天天一区二区日本电影三级|
禁无遮挡网站|
自拍偷自拍亚洲精品老妇|
亚洲美女搞黄在线观看
|
九九久久精品国产亚洲av麻豆|
怎么达到女性高潮|
国产黄色小视频在线观看|
欧美最新免费一区二区三区
|
日本成人三级电影网站|
狂野欧美白嫩少妇大欣赏|
3wmmmm亚洲av在线观看|
日韩大尺度精品在线看网址|
午夜亚洲福利在线播放|
成人特级黄色片久久久久久久|
99热6这里只有精品|
最新中文字幕久久久久|
99热精品在线国产|
少妇裸体淫交视频免费看高清|
在线a可以看的网站|
日韩 亚洲 欧美在线|
中文字幕人成人乱码亚洲影|
啦啦啦观看免费观看视频高清|
免费看美女性在线毛片视频|
国产老妇女一区|
bbb黄色大片|
一a级毛片在线观看|
国产色婷婷99|
少妇裸体淫交视频免费看高清|
国产视频一区二区在线看|
少妇人妻精品综合一区二区
|
欧美中文日本在线观看视频|
97超视频在线观看视频|
亚洲一区二区三区不卡视频|
成人无遮挡网站|
在线观看av片永久免费下载|
免费黄网站久久成人精品
|
免费看光身美女|
久久九九热精品免费|
av天堂在线播放|
丰满人妻熟妇乱又伦精品不卡|
成年女人永久免费观看视频|
成人高潮视频无遮挡免费网站|
久久九九热精品免费|
村上凉子中文字幕在线|
乱码一卡2卡4卡精品|
有码 亚洲区|
91狼人影院|
搡老妇女老女人老熟妇|
亚洲av二区三区四区|
久久久久九九精品影院|
悠悠久久av|
最新在线观看一区二区三区|
香蕉av资源在线|
亚洲国产日韩欧美精品在线观看|
日韩高清综合在线|
av中文乱码字幕在线|
中文在线观看免费www的网站|
欧美性猛交黑人性爽|
波野结衣二区三区在线|
国内精品久久久久久久电影|
国产精品一及|
久久久久久久久久成人|
好男人在线观看高清免费视频|
亚洲国产精品sss在线观看|
亚洲在线观看片|
69人妻影院|
三级国产精品欧美在线观看|
成人亚洲精品av一区二区|
国产精品三级大全|
欧美最新免费一区二区三区
|
人妻夜夜爽99麻豆av|
欧美成人免费av一区二区三区|
亚洲熟妇熟女久久|
成年版毛片免费区|
在线免费观看不下载黄p国产
|
中国美女看黄片|
男人舔奶头视频|
国产在视频线在精品|
欧美一区二区亚洲|
日本黄大片高清|
午夜福利成人在线免费观看|
精品久久久久久久久av|
国语自产精品视频在线第100页|
午夜激情欧美在线|
国产91精品成人一区二区三区|
一本综合久久免费|
亚洲欧美日韩高清专用|
国内揄拍国产精品人妻在线|
在线国产一区二区在线|
午夜免费激情av|
美女大奶头视频|
看免费av毛片|
嫩草影院入口|
亚洲真实伦在线观看|
国产在线精品亚洲第一网站|
日日干狠狠操夜夜爽|
99视频精品全部免费 在线|
国产淫片久久久久久久久
|
最近中文字幕高清免费大全6
|
成人国产综合亚洲|
日本免费a在线|
国产精品98久久久久久宅男小说|
亚洲五月婷婷丁香|
久久精品91蜜桃|
国产真实乱freesex|
97碰自拍视频|
国产精品伦人一区二区|
少妇丰满av|
蜜桃久久精品国产亚洲av|
黄片小视频在线播放|
国产av麻豆久久久久久久|
免费看美女性在线毛片视频|
成年版毛片免费区|
青草久久国产|
日韩欧美国产一区二区入口|
人妻久久中文字幕网|
欧美午夜高清在线|
欧美最黄视频在线播放免费|
偷拍熟女少妇极品色|
伦理电影大哥的女人|
男人的好看免费观看在线视频|
在线观看av片永久免费下载|
男人狂女人下面高潮的视频|
婷婷六月久久综合丁香|
十八禁国产超污无遮挡网站|
or卡值多少钱|
亚洲经典国产精华液单
|
精品国产亚洲在线|
x7x7x7水蜜桃|
久久这里只有精品中国|
啦啦啦观看免费观看视频高清|
国产精品精品国产色婷婷|
伦理电影大哥的女人|
a级毛片免费高清观看在线播放|
亚洲 欧美 日韩 在线 免费|
校园春色视频在线观看|
中文字幕熟女人妻在线|