起喷次数检测

(CMA)     (CNAS)     (ISO) (高新技术企业)

起喷次数检测范围

水样品,油样品,化妆品样品,清洁剂样品,洗发水样品,啤酒样品,果汁样品,牛奶样品,咖啡样品,茶样品,红酒样品,口香糖样品,口红样品,香水样品,洗衣粉样品,酱油样品,醋样品,气泡水样品,雪糕样品,膏状食品样品

起喷次数检测项目

激光起爆,光谱分析,底部面处理,铝合金抗蚀性测试,隔热壁分析,涡轮发动机测试,表面覆盖测试,引擎输出功率测试,燃料效率测试,尾气排放分析,湿度测试,荷载测试,结构强度测试,燃烧室压力测试,冷却系统性能测试,空气动力学测试,燃烧效率测试,振动测试,失效分析,加速测试,滑动摩擦测试,耐久性测试,热处理分析,声学测试,湿热环境测试

起喷次数检测方法

High Performance Liquid Chromatography (HPLC)
This method can be used to analyze the content of the sample and determine the frequency of spray initiation.

Gas Chromatography-Mass Spectrometry (GC-MS)
GC-MS can help in identifying the chemical composition of the sample and provide information on the number of spray events.

Ultraviolet-Visible (UV-Vis) Spectroscopy
UV-Vis spectroscopy can be utilized to detect any chromophores present in the sample that may indicate the frequency of sprays.

Ion Chromatography
This method is effective in analyzing ionic species in the sample, which can be correlated to the number of spray instances.

Inductively Coupled Plasma Mass Spectrometry (ICP-MS)
ICP-MS can determine the elemental composition of the sample and reveal any patterns related to the frequency of spraying.

Atomic Absorption Spectroscopy (AAS)
AAS is useful for quantifying the concentration of specific elements, which can provide insights into the spraying frequency.

Titration
Titration can be employed to determine the presence of certain compounds in the sample that may impact the number of spray occurrences.

Flow Injection Analysis (FIA)
FIA is a rapid method for analyzing samples and can be adapted to quantify components related to the frequency of sprays.

Electrochemical Analysis
Electrochemical techniques can be used to study redox-active substances in the sample and assess their influence on the number of spray events.

起喷次数检测仪器

质谱仪,原子吸收光谱仪,液相色谱仪,气相色谱仪,紫外-可见分光光度计,原子荧光光谱仪,电化学工作站,核磁共振仪,离子色谱仪,显微镜,拉曼光谱仪,热分析仪,生物反应器,流式细胞仪,电感耦合等离子体发射光谱仪,碳/硫分析仪,动态光散射仪,多用途扫描电镜,原子力显微镜,核素质谱仪

检测标准

GB/T 38069-2019：起酥油

GB/T 14645-2014：纺织品 燃烧性能 45°方向损毁面积和接焰次数的测定

FZ/T 22016-2019：喷毛纱

QB/T 4579-2013：喷码墨水

QB/T 4579-2013(2017)：喷码墨水

JB/T 14129-2021：饼干喷油机

HB/Z 66-1981：喷锌工艺

JT/T 324-2022：汽车喷烤漆房

CNS 8290-1986：钢喷敷

QB/T 5097-2017：起钉器

YB/T 4671-2018：钢包喷注料

CNS 15141-2007：纺织品起球检验法-盒型起球试验法

YB/T 4922-2021：高炉喷注料

Q/CNPC 36-2002：旋转防喷器

DG/T 010-2019：喷杆喷雾机

JB/T 3411.41-1999：断锥起爪 尺寸

JB/T 3411.41-1999(2017)：断锥起爪 尺寸

CNS 8289-1986：钢喷敷试验法

LY/T 2142-2013：喷播用木质纤维

JB/T 14168-2021：自动喷丸（砂）机

HG/T 5496-2018：纺织染整助剂 抗起毛起球剂 抗起毛起球性能的测定

CNS 14688-2002：喷凝土用材料

JB/T 9192-1999：等离子喷焊电源

JB/T 9192-1999(2017)：等离子喷焊电源

JB/T 5105-2022：铸件模样 起模斜度

JB/T 9191-1999：等离子喷焊枪技术条件

JB/T 10561-2006：硬质合金喷吸钻

JB/T 6286-2013：喷风式碾米机

JB/T 9191-1999(2017)：等离子喷焊枪技术条件

FZ/T 92043-1995(2012)：熔融纺丝异形孔喷丝板

我们的实力

部分实验仪器

合作客户

注意：因业务调整，暂不接受个人委托测试望见谅。