Tl101

Manufactured by Biolin Scientific

The TL101 is a laboratory instrument designed for tensile testing. It measures the force required to stretch or pull a material until it breaks. The TL101 provides accurate data on the tensile strength, elasticity, and other mechanical properties of various materials.

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Lab products found in correlation

Escalab 250, by VG Scientific (2 mentions) Rint 2000, by Rigaku (2 mentions) Mfp 3d, by Oxford Instruments (1 mentions) Jsm 6510lv, by JEOL (1 mentions) Inspect f50, by Thermo Fisher Scientific (1 mentions)

2 protocols using tl101

Characterizing Titanium Surface Modifications

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The Ti plates treated at different conditions were observed by scanning electron microscopy (SEM, JSM-6510LV, JEOL). Their microscopic morphologies were also observed by atomic force microscope (AFM, MFP-3D Asylum Research, Santa Barbara, CA). The crystallographic structures of the samples were detected with X-ray diffraction (XRD, RINT-2000, Rigaku, Japan). The surface elements were analyzed by X-ray photoelectron spectroscope (XPS, VG Scientific, ESCALAB 250, Sussex, UK) performed with Al Kα (hν = 1486.6 eV) as the X-ray source. The wettability and surface free energy of the samples were analyzed using contact angle goniometer (TL101, Biolin Scientific AB). The concentration of Ti released into alkaline solution was measured using an inductive coupled plasma atomic emission spectrometer (ICP-AES, IRIS Adv). The morphology and composition of Ca-P precipitates deposited on nanostructured titanate layer were analyzed by SEM and its coupled energy dispersive spectrometer (EDS).

Guo Z., Jiang N., Chen C., Zhu S., Zhang L, & Li Y. (2017). Surface bioactivation through the nanostructured layer on titanium modified by facile HPT treatment. Scientific Reports, 7, 4155.

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Comprehensive Coating Characterization

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The surface morphologies of all samples were observed using an Inspect F50 field emission scanning electron microscope (SEM, FEI, Eindhoven, Netherlands). More detailed coating microstructure was further analyzed using a transmission electron microscope (TEM, Tencnai G2 F20, FEI). The surface elemental composition was analyzed by X-ray photoelectron spectroscope (XPS, VG Scientific, ESCALAB 250, Sussex, UK), with Al Kα (hν= 1486.6 eV) and the surface crystallinity of all samples were confirmed by an X-ray diffractometer (XRD, RINT-2000, Rigaku, Japan). The wettability and surface free energy of the coatings were analyzed using a contact angle goniometer (TL101, Biolin Scientific AB). The static contact angle was measured at 5 random locations on each sample, and the average value was taken.

Jiang N., Guo Z., Sun D., Li Y., Yang Y., Chen C., Chen C., Zhang L, & Zhu S. (2018). Promoting Osseointegration of Ti Implants through Micro/Nanoscaled Hierarchical Ti Phosphate/Ti Oxide Hybrid Coating. ACS nano, 12(8).

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