Titanium traded flat at 49 CNY/KG on September 19, 2025. Over the past month, Titanium's price has remained flat, but it is still 11.36% higher than a year ago, according to trading on a contract for difference (CFD) that tracks the benchmark market for this commodity. This dataset includes a chart with historical data for Titanium.

Imports of Titanium Ores & Concentrates in Mexico increased to 23160 USD Thousand in January from 8414 USD Thousand in December of 2023. This dataset includes a chart with historical data for Mexico Imports of Titanium Ores & Concentrates.

This dataset contains the predicted prices of IRON Titanium Token for the upcoming years based on user-defined projections.

The database contains annual primary data and secondary data for titanium products in China from 2001 to 2020. The primary data are recorded as operating capacity, annual production, international trade, and internal sales of titanium sponge, titanium ingots, and titanium mills. The secondary data are recorded as the total amount of the low-grade titanium scrap and recycled high-grade titanium swarf, and the ratios of off-grade titanium sponge, low-grade titanium scrap, and recycled high-grade titanium swarf for each titanium product.

Total-Stockholder-Equity Time Series for Sichuan Anning Iron and Titanium Co. Sichuan Anning Iron and Titanium Co.,Ltd. engages in the mining, washing, and sale of mechanical titanium magnetite in China. It offers ilmenite concentrate and titanium concentrate products. The company was founded in 1994 and is headquartered in Panzhihua City, China.

This dataset provides information about the number of properties, residents, and average property values for Titanium Circle cross streets in Moreno Valley, CA.

Imports - Titanium & Articles Thereof, Incl Waste & Scrap in Mexico increased to 20251 USD Thousand in January from 14848 USD Thousand in December of 2023. This dataset includes a chart with historical data for Mexico Imports of Titanium & Articles Thereof Incl Waste.

This dataset provides information about the number of properties, residents, and average property values for Titanium Street cross streets in Bakersfield, CA.

Titanium alloy exhibits exceptional performance and a wide range of applications, with the high performance serving as the foundation for the development. However, traditional material design methods encounter numerous calculations and experimental trial-and-error processes, leading to increased costs and decreased efficiency in material design. The data-driven model presents an intriguing alternative to traditional material design methods by offering a novel approach to expedite the materials design process. In this study, a framework for computer-aided design high performance titanium alloys based on machine learning is proposed, which constructs an intelligent search space encompassing various combinations of 18 elements to facilitate alloy design. Firstly, a proprietary dataset was constructed for titanium alloy materials using feature design and a combination of unsupervised and supervised feature engineering methods. Secondly, six machine learning algorithms were employed to establish regression models, and the hyperparameters of each algorithm were optimized to improve model performance. Thirdly, the model was screened using five regression algorithm evaluation methods. The results demonstrated that the selected optimized model achieved an R2 value of 0.95 on the verification set and 0.93 on the test set, yielding satisfactory outcomes. Finally, a comprehensive model framework along with an intelligent search methodology for designing high-strength titanium alloys has been established. It is believed that this method is also applicable to other properties of titanium alloys and the optimization of other materials.

PPI - Titanium Mill Shapes - Historical chart and current data through 2025.

Selling-General-and-Administrative Time Series for Guangdong Huiyun Titanium Industry. Guangdong Huiyun Titanium Industry Co., Ltd. engages in the research, development, production, and sale of titanium dioxide products. Its products include anatase and rutile titanium dioxide, and related by-products; titanium plaster; iron concentrate; and industrial sulfuric acid. The company also exports its products to more than 30 countries in Europe, South America, Southeast Asia. In addition, the company engages in non-ferrous metal mining and dressing business, as well as sells steam. Further, it's products are used in coatings, plastics, rubber, paper making, paint, ink, and other industries. Guangdong Huiyun Titanium Industry Co., Ltd. was founded in 2003 and is headquartered in Yunfu, China.

Other-Current-Assets Time Series for Guangdong Huiyun Titanium Industry. Guangdong Huiyun Titanium Industry Co., Ltd. engages in the research, development, production, and sale of titanium dioxide products. Its products include anatase and rutile titanium dioxide, and related by-products; titanium plaster; iron concentrate; and industrial sulfuric acid. The company also exports its products to more than 30 countries in Europe, South America, Southeast Asia. In addition, the company engages in non-ferrous metal mining and dressing business, as well as sells steam. Further, it's products are used in coatings, plastics, rubber, paper making, paint, ink, and other industries. Guangdong Huiyun Titanium Industry Co., Ltd. was founded in 2003 and is headquartered in Yunfu, China.

Ebitda Time Series for Guangdong Huiyun Titanium Industry. Guangdong Huiyun Titanium Industry Co., Ltd. engages in the research, development, production, and sale of titanium dioxide products. Its products include anatase and rutile titanium dioxide, and related by-products; titanium plaster; iron concentrate; and industrial sulfuric acid. The company also exports its products to more than 30 countries in Europe, South America, Southeast Asia. In addition, the company engages in non-ferrous metal mining and dressing business, as well as sells steam. Further, it's products are used in coatings, plastics, rubber, paper making, paint, ink, and other industries. Guangdong Huiyun Titanium Industry Co., Ltd. was founded in 2003 and is headquartered in Yunfu, China.

Income-Before-Tax Time Series for BaoJi Titanium Industry Co Ltd. Baoji Titanium Industry Co., Ltd. manufactures and sells titanium and titanium alloy products. Its products include rods, wires, forgings, castings and other processed materials, strips, foils, tubes, and metal composite products. The company produces zirconium, nickel, and steel in various forms. It offers its products under the Baoti brand. The company serves aviation, aerospace, ships and vessels, construction, medical, consumer, weapons, biomedicine, chemical metallurgy, marine engineering, sports, and leisure sectors. Baoji Titanium Industry Co., Ltd. exports its products to the United States, France, Italy, Sweden, India, and internationally. The company was incorporated in 1999 and is headquartered in Baoji, China.

1) % Viability of human reconstructed skin exposed to cerium, silver and titanium nanoparticles; 2) Zeta potential of the nanoparticles in media. This dataset is associated with the following publication: Miyani, V., and M. Hughes. Assessment of the vitro dermal irritation of cerium silver and titanium nanoparticles in a human skin equivalent model. TOXICOLOGY IN VITRO. Elsevier Science Ltd, New York, NY, USA, 36(2): 145-151, (2017).

The titanium-zircon mineral industry operates in the high-profile settled parts of the Swan Coastal Plain of SW Australia. Currently probably several billion dollars-worth of minerals are sterilized by urban, commercial and industrial developments in the region. Maps showing the distribution of the known deposits are an essential dataset needed by State and local Government agencies and authorities, and must be available widely to enable planning to avoid setting up the scenario where deposits are sterilized. This dataset was formally known as Titanium-Zircon Mineralisation (DMP-023)

Methodology Experiments were conducted on in-house fabricated Pt/TiO2/Au structure with thickness of 15/25/20nm respectively. The fabricated structures were characterized using a 16 x 16 probe card mounted on a Cascade Microtech Summit 12000 Prober controlled via a ARC ONE DC I-V control system. Stimulation was conducted over five repeating cycles to demonstrate the behaviour of the resistance over time. Potentiation and depression were triggered by pulses of opposite polarity. The bias could potentially be altered to achieve a desired starting resistance. A total of five repeating cycles were conducted. Each experiment was conducted on a pristine device with 4V programming pulse width of 10ms and inter-pulse of 100ms. A total of 100 pulses were applied per direction. Each identical programming pulse was followed by a 0.1V non-invasive reading pulse for a fixed duration. Attached csv file include resistive values for three devices along with their corresponding pulse train and time.

In selected intervals, we measured titanium and iron contents in parallel to rock magnetic parameters (Fig. 9). Titanium content is a good reflection of detrital input since minerals containing titanium are not very sensitive to dissolution. Iron, however, is rather mobile and involved in the redox history of highly porous sediments: the spike of iron observed on top of the sedimentary column (Fig. 9A) marks the redox front. We observed a strong similarity between the titanium and HIRM curves: the detrital input decreases from the late glacial to the Holocene. In ancient sediments, HIRM and titanium display similar variations with high values in glacials and low values in interglacials (Fig. 9B).

Large amounts of anthropogenic CO2 in the atmosphere are taken up by the ocean, which leads to 'ocean acidification' (OA). In addition, the increasing application of nanoparticles inevitably leads to their increased release into the aquatic environment. However, the impact of OA on the bioaccumulation of nanoparticles in marine organisms still remains unknown. This study investigated the effects of OA on the bioaccumulation of a model nanoparticle, titanium dioxide nanoparticles (nTiO2), in three edible bivalves. All species tested accumulated significantly greater amount of nTiO2 in pCO2-acidified seawater. Furthermore, the potential health threats of realistic nTiO2 quantities accumulated in bivalves under future OA scenarios were evaluated with a mouse assay, which revealed evident organ edema and alterations in hematologic indices and blood chemistry values under future OA scenario (pH at 7.4). Overall, this study suggests that OA would enhance the accumulation of nTiO2 in edible bivalves and may therefore increase the health risk for seafood consumers. In order to allow full comparability with other ocean acidification data sets, the R package seacarb (Gattuso et al, 2019) was used to compute a complete and consistent set of carbonate system variables, as described by Nisumaa et al. (2010). In this dataset the original values were archived in addition with the recalculated parameters (see related PI). The date of carbonate chemistry calculation by seacarb is 2019-10-24.

Deep learning methods have shown significant potential in tool wear lifecycle analysis. However, there are fewer open source datasets due to the high cost of data collection and equipment time investment. Existing datasets often fail to capture cutting force changes directly. This paper introduces a comprehensive dataset for the full lifecycle of titanium (Ti6Al4V) tool wear. This dataset utilizes complex circumferential milling paths and employs a rotary dynamometer to directly measure cutting force and torque, alongside multidimensional data from initial wear to severe wear. The dataset consists of 68 different samples with approximately 5 million rows each and includes vibration, sound, cutting force, and torque. Detailed wear pictures and measurement values are also provided. It is a valuable resource for time series prediction, anomaly detection, and tool wear studies. We believe this dataset will be a crucial resource for smart manufacturing research.