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研究文章研究塑料区域进化法周围GOB侧入境的岩石岩石的进化定律,该法在深层矿山的典型屋顶条件下
解决了在典型的屋顶条件下保留在深地雷中的GOB侧进入的控制问题,我们进行了理论分析,数值模拟和实际测量值。从周围岩石的塑料区域开始,严重的损坏区域,损坏的程度和范围以及GOB侧入境的周围岩石的动态进化过程在深矿中的四个典型屋顶条件下进行了系统的分析;阐述了周围岩石塑料带的扩展和进化定律;并提出了关键控制技术。te结果表明,(1)周围岩石的塑性故障主要集中在煤层和地板上,尤其是在填充体中。te塑料区域的塑料区域的gob侧入口的塑料区域固定在厚的立即屋顶的情况下,被广泛分布和深,但填充体的塑料故障并不明显。te塑料塑料失败的gob侧入口的周围岩石屋顶保留的塑料失败主要集中在填充区域的屋顶,填充的身体和地板上。(2)根据保留深的GOB侧入境的典型屋顶条件,对周围岩石的损坏程度如下:厚的立即屋顶,复合屋顶,薄的立即屋顶和厚实的屋顶。提议的技术适用于Panyi矿区东部地区的深入GOB侧留住项目,并有效地满足了保留在深矿中的GOB侧入境的重复使用要求。(3)为保留在深层矿山中的GOB侧进入,提出了一个“多支撑器结构”控制系统,包括提高锚固系统的轴承性能,提高灾难煤摇滚质量的强度,增强填充物体的轴承能力,并增加隧道侧轴承的轴承能力。
单胺氧化酶抑制剂(MAOIS)的简介
• Estimated to be 20x typical ceremonial dose • Typical dose (75kg or 165lb adult): • 0.5-1mg/kg DMT = 37.5-75mg DMT • 60-125mg harmine • 4-9 mg harmaline • 50-100mg tetrahydroharmine (THH) • Propensity to produce vomiting likely limits feasibility of consuming (and吸收)20剂ayahuasca立即•在不同的ayahuasca Brews
电池电动终端卡车课程汲取的报告...
List of Figures Figure 1: Patrick Terminals Fremantle ............................................................................................... 4 Figure 2: BEV- TT operations at Patrick Terminals Fremantle ............................................................ 5 Figure 3: PM115 (BEV-TT) undertaking 400A (~260kW) dual gun charging – image 1 ....................... 6 Figure 4: Charger setup including awnings......................................................................................... 6 Figure 5: PM115 (BEV-TT) undertaking 400A (~260kW) dual gun charging – image 2 ....................... 8 Figure 7: Typical 400A Charging Profile ............................................................................................. 9 Figure 3: BEV-TT delivering export containers to a quay crane ........................................................ 10 Figure 9: Typical BEV-TT Driving Profile .......................................................................................... 11
对于使用 AST 产品的典型任务(在低地球轨道运行 10 年),考虑到其固有屏蔽,可以假设剂量高达 40 千拉德。
辐照在德国奥伊斯基兴的“弗劳恩霍夫自然科学技术趋势分析研究所”进行,使用最大剂量率为 720 krad/h 的 60 Co 源和单独的中子源。同位素 60 Co 经 β 衰变为 60 Ni,半衰期约为 5.3 年,后者通过发射能量为 1.172 MeV 和 1.332 MeV 的伽马射线衰变为镍的基态 [3]。弗劳恩霍夫 INT 的 THERMO-Fisher D-711 中子发生器通过以 150 kV 的电压将氘离子 (D = 2H) 加速到氘或氚靶 (T = 3H) 上来产生中子。在靶内发生DD或DT核聚变反应,分别释放氦同位素3He和4He,以及能量分别为2.5MeV和14.1MeV的快中子[4]。3.被测装置
房主电线指南
Ground fault protection (GFCI).................................................................................................................................................12 Typical outlet...................................................................................................................................................................................12 Arc-fault protection .....................................................................................................................................................................13 Legacy panel, armoured cable..................................................................................................................................................14
BQ25504超低功率提升转换器,带电池管理用于能量收割机应用程序数据表(Rev. G)
• Ultra low-power with high-efficiency DC-DC boost converter/charger – Continuous energy harvesting from low-input sources: V IN ≥ 130 mV (Typical) – Ultra-low quiescent current: I Q < 330 nA (Typical) – Cold-start voltage: V IN ≥ 600 mV (typical) • Programmable dynamic maximum power point tracking (MPPT) – Integrated dynamic maximum power point tracking for从各种能源来源(输入电压法规)的最佳能量提取阻止输入来源•存储•可以将能量存储到可充电可充电的锂离子电池,薄膜电池,薄膜电池,超级电容器,超级电容器或常规电容器,或常规电池电量•电池充电和保护型电池•可编程的电池良好的电池 - 拨号级别 - 拨号级别 - 计算机温度 - 拨号级别的温度 - 拨号级别的温度 - 拨号级别的温度 - 拨号级别的温度, PIN - 可编程阈值和磁滞 - 警告附有待处理功率损失的微控制器 - 可用于启用或禁用系统负载
ISO6740-Q1,ISO6741-Q1,ISO6742-Q1
• 100Mbps data rate • Robust isolation barrier: – >30-year projected lifetime at 1500V RMS working voltage – Up to 5000V RMS isolation rating – Up to 12.8kV surge capability – ±100kV/μs typical CMTI • Wide supply range: 2.25V to 5.5V • 2.25V to 5.5V level translation • Default output high (ISO774x ) and low (ISO774xF) options • Wide temperature range: –55°C to 125°C • Low power consumption, typical 1.5mA per channel at 1Mbps • Low propagation delay: 10.7ns typical (5V Supplies) • Robust electromagnetic compatibility (EMC) – System-level ESD, EFT, and surge immunity – ±8kV IEC 61000-4-2 contact discharge protection across isolation barrier – Low emissions • Wide-SOIC (DW-16) and QSOP (DBQ-16) package options • Automotive version available: ISO774x-Q1 • Safety-related certifications: – DIN EN IEC 60747-17 (VDE 0884-17) – UL 1577 component recognition program – IEC 61010-1, IEC 62368-1, IEC 60601-1, and GB 4943.1认证
公共模式choke(扁平电线绕组)
Attenuation (typical values at Z=50Ω) ───── asymmetrical, all branches in parallel (common mode) - - - - - - - - symmetrical (differential mode) DATA SHEET 09-34 Jun./18 9 OF 9
TPS7A02 Nanopower IQ,25-NA,200-MA,带有快速瞬态响应数据表(Rev. C)
6.1 Absolute Maximum Ratings........................................ 4 6.2 ESD Ratings............................................................... 4 6.3 Recommended Operating Conditions......................... 5 6.4 Thermal Information.................................................... 5 6.5 Electrical Characteristics............................................. 6 6.6 Switching Characteristics............................................ 7 6.7 Typical特征........................................................................................................................................................................................................................................................................................... 18
bapi-stat“量子序”温度和湿度传感器
Power Supply: 10 to 40 VDC (15 to 24 VDC Recommended) for 4 to 20 mA or 0 to 5 VDC Outputs 15 to 40 VDC (15 to 24 VDC Recommended) for 0 to 10 VDC Outputs 12 to 28 VAC (Requires a separate pair of shielded wires) for 0 to 5 VDC Outputs 15 to 28 VAC (Requires a separate pair of shielded wires) for 0 to 10VDC Outputs Power Consumption: 100 mA maximum DC: 4 to 20 mA Output (<30mA typical) 75 mA maximum DC: 0 to 5 VDC or 0 to 10 VDC Outputs (6mA typical) 1.9 VA maximum AC: 0 to 5 VDC or 0 to 10 VDC Outputs (0.2VA typical) Outputs: 4 active outputs plus 1 passive temperature sensor Volts........................0 to 5 VDC or 0 to 10VDC, Impedance >10KΩ (OUT1, OUT2, OUT3, OUT4) Current....................4 to 20 mA, Impedance <500Ω @ 24 VDC (OUT1, OUT2) Resistance..............Setpoint, 5 VDC @ 5 mA max (OUT3, OUT4) - Factory selected per application Relay Contact.........N.O., 500 mA @ 24 VDC max Temp.传感器.........被动RTD或热敏电阻(temp+/temp-)输入:外部覆盖.... 5 VDC或24 VDC/VAC/vac外部传感器...... 10K-2 Themistor单独购买。Wired 25' max from sensor Sensing Elements for Active Outputs and Display: Temperature............10K-2 Thermistor Humidity..................Capacitive Polymer, ±2%RH Sensing Element for Resistive Temp Output: Thermistor or RTD Mounting: Standard 2”x4” junction box, European junction box