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Viridi e mobility technologies ningb bo co.ltd. Hs code 853669 Product tags service switch,cod.NCM LITHIUM ION BATTERY PACK UN CODE 3480 CLASS 9 HS CODE 8507600020 S C NYC0013N21 THIS SHIPMENT DOES NOT CONTAIN ANY WOOD PACKING MATERIALS AUTO NVOCC SCAC BANQ BAL NGB4495721NCM LITHIUM ION BATTERY PACK UN CODE 3480 CLASS 9 HS CODE 8507600020 Supplier viridi e mobility technologies ningb bo co.ltd.NCM LITHIUM ION BATTERY PACK UN CODE 3480 CLASS 9 HS CODE 8507600020NCM LITHIUM ION BATTERY PACK UN CODE 3480 CLASS 9 HS CODE 8507600020 S C NYC0013N21 THIS SHIPMENT DOES NOT CONTAIN ANY WOOD PACKING MATERIALS AUTO NVOCC SCAC BANQ BAL NGB4495391 Hs code 853669 Product tags plug,dsm,ev,cod.NCM LITHIUM ION BATTERY PACK UN CODE 3480 CLASS 9 HS CODE 8507600020 S C NYC0013N21 THIS SHIPMENT DOES NOT CONTAIN ANY WOOD PACKING MATERIALS AUTO NVOCC SCAC BANQ BAL NGB4508307 NCM LITHIUM ION BATTERY PACK UN CODE 3480 CLASS 9 THIS SHIPMENT DOES NOT CONTAIN ANY WOOD PACKING MATERIALS AUTO NVOCC SCAC BANQ BAL NGB4524416 HS CODE 8507600020 S C NYC0013N21 Hs code 850760 Product tags auto,ipm,packing material,wood,cod,lithium ion battery pack.Hs code 853669 Product tags plug,dsm,cod.Supply area China Purchas area United States.Furthermore, the tomographic images of LIBs demonstrate that the increased internal gaps within the electrodes result in the increase of internal resistance, and the mechanism for capacity loss of batteries in the cyclic is revealed.

Cyclic charge/discharge of LIBs with different deformations show that with an increase in cycles, the capacity and state-of-health (SOH) of mechanically deformed LIBs decrease significantly due to the changes in the internal structure of batteries. Results show that with an increase in mechanical deformation, the internal resistances of LIBs increase, charging curves move to high voltage areas, and peak points of the incremental capacity (IC) curves decrease and move to high voltage areas. Secondly, X-ray computed tomography (XCT) technology is utilized to qualitatively analyze the internal structure variations of LIBs caused by minor mechanical deformation. Firstly, incremental capacity analysis (ICA) is performed to quantify the charge/discharge performance and cycle aging behavior of LIBs under different deformations. This study uses non-destructive testing methods to analyze the effects of minor mechanical deformation on the lifetime and performance of commercial 21700 lIBs. Vehicular lithium-ion batteries (LIBs) may suffer from minor damage or defects owing to external mechanical abuse, such as deformation and scratches, during cycling.