Magnetizing Equipment

Magnetization Automation

Magnet Measuring Instruments

Magnetization Services

Formaldehyde (HCHO) is a widespread water-soluble toxic pollutant, which mainly originates from industrial production emissions, volatilization of building and decoration materials, and the release of daily necessities. This compound is strongly carcinogenic and biotoxic, which will not only cause serious damage to the human respiratory system and immune system, but also destroy the ecological balance of the water body. Therefore, the development of efficient formaldehyde removal technology is of great significance for the protection of human health and the maintenance of ecosystem stability. The existing formaldehyde degradation methods mainly include adsorption technology, biodegradation method and catalytic oxidation method, among which catalytic oxidation method has become the key direction of the current research due to its advantages of complete degradation and no secondary pollution.

Calcite-type oxides (ABO?), with unique crystal structures, excellent electronic conductivity and stable catalytic activity, have made remarkable progress in multiphase catalysis such as CO oxidation and volatile organic compound degradation. As a typical chalcogenide material, lanthanum cobalt oxide (LaCoO?) has a potential oxidation catalytic ability due to the valence tunability of its active component cobalt (Co). However, there are relatively few studies on the degradation of formaldehyde in water by LaCoO?, and the mechanism of its catalytic activity and reaction pathway are not yet fully understood.

Based on the above background, in this study, chalcogenide LaCoO? catalysts with different lanthanum to cobalt molar ratios were prepared by the sol-gel method, and the catalytic degradation of formaldehyde in water was systematically investigated at room temperature, and the catalytic mechanism was also revealed by the combination of the material characterization technique and the free radical burst experiments. The results of catalytic performance tests showed that the prepared LaCoO? catalysts exhibited excellent formaldehyde degradation activity. Compared with the traditional non-homogeneous catalysts (e.g., transition metal oxides, noble metal-loaded catalysts, etc.), the formaldehyde degradation time was shortened from 119 min to 10 min, and the degradation efficiency was improved by 12 times. The best degradation activity was achieved when the lanthanum to cobalt molar ratio was 1:1, and the complete removal of formaldehyde from water could be realized in 10 min at room temperature, and the degradation rate remained above 95% after 3 times of reuse, which showed good stability.

In order to elucidate the intrinsic reasons for the differences in catalytic activity, the surface electronic states of the catalysts with different lanthanum-cobalt molar ratios were analyzed in this study using X-ray photoelectron spectroscopy (XPS). The results showed that the relative content of Co2? on the catalyst surface gradually decreased with the increase of lanthanum-cobalt molar ratio, while the content of Co3? increased accordingly. Combined with the catalytic performance data, it can be found that the formaldehyde degradation activity of the catalyst is positively correlated with the Co2? content, indicating that Co2? is the key active site to promote the oxidative degradation of formaldehyde, and participates in the redox reaction through the Co2?/Co3? valence cycle. reaction, accelerating the generation of active species.

In order to identify the main active species during the reaction process, this study further conducted free radical bursting experiments by adding sulfate radical (SO??-) bursting agent (anhydrous ethanol) and hydroxyl radical (?OH) bursting agent (tert-butanol) to the reaction system, respectively. The experimental results showed that the addition of both bursting agents significantly inhibited the degradation efficiency of formaldehyde, in which the degradation rate decreased by 681 TP3T with the addition of anhydrous ethanol and 521 TP3T with the addition of tert-butanol, which confirms that SO??- and ?OH are the main active species in the degradation of formaldehyde. Based on the above results, the present study proposed that the reaction mechanism of LaCoO?-catalyzed formaldehyde degradation is a non-homogeneous Fenton-like oxidation reaction: Co2? on the catalyst surface reacts with oxidants in the system (e.g., dissolved oxygen, hydrogen peroxide, etc.) to form SO??- and?OH, which then oxidizes formaldehyde into CO? and?OH through strong oxidative action. Formaldehyde is oxidized and decomposed into CO? and H?O.

In this study, the potential application of chalcogenide LaCoO? in formaldehyde degradation in water was confirmed for the first time, the mechanism of lanthanide-cobalt molar ratio on the catalytic activity was clarified, and the reaction pathway of non-homogeneous Fenton-like oxidation was revealed, which provided the theoretical basis and technical reference for the development of highly efficient and stable catalysts for formaldehyde degradation at room temperature.

Magnetization of Magnetic Materials

3C Electronic Magnetization

Motor Rotor Magnetization

Car Speaker Magnetization

New Energy Vehicle Industry

Medical Equipment Industry

Spring Ushers in a New Journey, Action Drives New Chapters｜JIUJU Automation Kicks Off 2026 with Success

2026年2月25日

Magnetizing Equipment | Magnetizing Automation | Magnetic Measuring Instruments | Magnetizing Services Spring Returns, Unveiling a New Chapter — Setting Sail on a New Journey On the eighth day of the first lunar month of 2026, an auspicious day to commence work in the new year, JIUJU Automation was filled with warmth and vitality. Having set aside the leisurely pace of the Spring Festival, all employees gathered at the facility with full enthusiasm and high spirits, collectively embarking on the journey of hard work for the new year. They are committed to upholding their original aspirations through practical action and striving to write a new chapter of glory with dedicated effort. At 8:00 AM sharp...

久巨充磁案例：硅膠磁材產品的充磁全流程記錄

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Automated Magnetic Charging Integrated Solution 充磁設備 充磁自動化 磁測量儀器 充磁服務 在工業制造領域，硅膠磁性產品因兼具柔性特質與磁性能，廣泛應用于智能穿戴、密封組件等場景。其磁性能的精準賦予，核心依賴專業充磁工藝。本次久巨充磁承接硅膠產品充磁項目，成功實現產品磁力從0.01高斯到15.5高斯的跨越式提升，以下為全流程詳…

JiuJu Magnetic Stripe Magnetization Video Case: Medical Magnetic Stripe Magnetization

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Automated Magnetic Charging Integrated Solution Magnetic Charging Equipment Magnetic Charging Automation Magnetic Measuring Instruments Magnetic Charging Services Magnetic stripes are widely used in medical cards, medical insurance cards and other medical credentials to store key data such as basic patient information and medical insurance participation information. Due to the frequency of use and the external environment, the magnetic stripe may become magnetically weakened or demagnetized, resulting in the inability of the equipment to read the information, and then need to be magnetized. The core principle of magnetization is to make the magnetic strip inside the...

JiuJu Magnetizing Video Case: Rubber Silicone and NdFeB Magnetizing

January 6, 2026

Automated Magnetic Charging Integrated Solution Magnetic Charging Equipment Magnetic Charging Automation Magnetic Measuring Instruments Magnetic Charging Service This paper focuses on the core process of magnetization of Rubber Silicone and NdFeB, the initial state of non-magnetic before magnetization, and the magnetic performance after magnetization. Through the gaussmeter measurement verification, it is clear that the highest magnetic unit after magnetization is up to 45.9 units and the highest magnetic unit after magnetization is up to 45.9 units (measured by gaussmeter). The magnetization process is the core link to realize the magnetic transformation of the two...

久巨充磁案例-古董音響喇叭充磁修復，技術與實例介紹

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Automated Magnetic Charging Integrated Solution 充磁設備 充磁自動化 磁測量儀器 充磁服務 電機充磁，是永磁同步電機、無刷直流電機等永磁電機制造與維護的核心步驟。它依托電磁感應與磁場能量轉換原理，借助外部強磁場讓永磁體內部磁疇定向排列，從而形成穩定持久的磁性，是保障電機正常運行的基礎環節。 一、充磁的本質：為電機賦予…

Spring Ushers in a New Journey, Action Drives New Chapters｜JIUJU Automation Kicks Off 2026 with Success

2026年2月25日

Magnetizing Equipment | Magnetizing Automation | Magnetic Measuring Instruments | Magnetizing Services Spring Returns, Unveiling a New Chapter — Setting Sail on a New Journey On the eighth day of the first lunar month of 2026, an auspicious day to commence work in the new year, JIUJU Automation was filled with warmth and vitality. Having set aside the leisurely pace of the Spring Festival, all employees gathered at the facility with full enthusiasm and high spirits, collectively embarking on the journey of hard work for the new year. They are committed to upholding their original aspirations through practical action and striving to write a new chapter of glory with dedicated effort. At 8:00 AM sharp...

久巨充磁案例：硅膠磁材產品的充磁全流程記錄

2026年2月25日

Automated Magnetic Charging Integrated Solution 充磁設備 充磁自動化 磁測量儀器 充磁服務 在工業制造領域，硅膠磁性產品因兼具柔性特質與磁性能，廣泛應用于智能穿戴、密封組件等場景。其磁性能的精準賦予，核心依賴專業充磁工藝。本次久巨充磁承接硅膠產品充磁項目，成功實現產品磁力從0.01高斯到15.5高斯的跨越式提升，以下為全流程詳…

久巨充磁案例-古董音響喇叭充磁修復，技術與實例介紹

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Spring Ushers in a New Journey, Action Drives New Chapters｜JIUJU Automation Kicks Off 2026 with Success

2026年2月25日

Magnetizing Equipment | Magnetizing Automation | Magnetic Measuring Instruments | Magnetizing Services Spring Returns, Unveiling a New Chapter — Setting Sail on a New Journey On the eighth day of the first lunar month of 2026, an auspicious day to commence work in the new year, JIUJU Automation was filled with warmth and vitality. Having set aside the leisurely pace of the Spring Festival, all employees gathered at the facility with full enthusiasm and high spirits, collectively embarking on the journey of hard work for the new year. They are committed to upholding their original aspirations through practical action and striving to write a new chapter of glory with dedicated effort. At 8:00 AM sharp...

久巨充磁案例：硅膠磁材產品的充磁全流程記錄

2026年2月25日

Automated Magnetic Charging Integrated Solution 充磁設備 充磁自動化 磁測量儀器 充磁服務 在工業制造領域，硅膠磁性產品因兼具柔性特質與磁性能，廣泛應用于智能穿戴、密封組件等場景。其磁性能的精準賦予，核心依賴專業充磁工藝。本次久巨充磁承接硅膠產品充磁項目，成功實現產品磁力從0.01高斯到15.5高斯的跨越式提升，以下為全流程詳…

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一文讀懂：電機充磁原理、必要性與永磁電機底層邏輯

2026年2月26日

Automated Magnetic Charging Integrated Solution 充磁設備 充磁自動化 磁測量儀器 充磁服務 電機充磁，是永磁同步電機、無刷直流電機等永磁電機制造與維護的核心步驟。它依托電磁感應與磁場能量轉換原理，借助外部強磁場讓永磁體內部磁疇定向排列，從而形成穩定持久的磁性，是保障電機正常運行的基礎環節。 一、充磁的本質：為電機賦予…

Spring Ushers in a New Journey, Action Drives New Chapters｜JIUJU Automation Kicks Off 2026 with Success

2026年2月25日

Magnetizing Equipment | Magnetizing Automation | Magnetic Measuring Instruments | Magnetizing Services Spring Returns, Unveiling a New Chapter — Setting Sail on a New Journey On the eighth day of the first lunar month of 2026, an auspicious day to commence work in the new year, JIUJU Automation was filled with warmth and vitality. Having set aside the leisurely pace of the Spring Festival, all employees gathered at the facility with full enthusiasm and high spirits, collectively embarking on the journey of hard work for the new year. They are committed to upholding their original aspirations through practical action and striving to write a new chapter of glory with dedicated effort. At 8:00 AM sharp...

久巨充磁案例：硅膠磁材產品的充磁全流程記錄

2026年2月25日

Automated Magnetic Charging Integrated Solution 充磁設備 充磁自動化 磁測量儀器 充磁服務 在工業制造領域，硅膠磁性產品因兼具柔性特質與磁性能，廣泛應用于智能穿戴、密封組件等場景。其磁性能的精準賦予，核心依賴專業充磁工藝。本次久巨充磁承接硅膠產品充磁項目，成功實現產品磁力從0.01高斯到15.5高斯的跨越式提升，以下為全流程詳…

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久巨充磁案例-古董音響喇叭充磁修復，技術與實例介紹

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2026年2月26日

Automated Magnetic Charging Integrated Solution 充磁設備 充磁自動化 磁測量儀器 充磁服務 電機充磁，是永磁同步電機、無刷直流電機等永磁電機制造與維護的核心步驟。它依托電磁感應與磁場能量轉換原理，借助外部強磁場讓永磁體內部磁疇定向排列，從而形成穩定持久的磁性，是保障電機正常運行的基礎環節。 一、充磁的本質：為電機賦予…

Spring Ushers in a New Journey, Action Drives New Chapters｜JIUJU Automation Kicks Off 2026 with Success

2026年2月25日

Magnetizing Equipment | Magnetizing Automation | Magnetic Measuring Instruments | Magnetizing Services Spring Returns, Unveiling a New Chapter — Setting Sail on a New Journey On the eighth day of the first lunar month of 2026, an auspicious day to commence work in the new year, JIUJU Automation was filled with warmth and vitality. Having set aside the leisurely pace of the Spring Festival, all employees gathered at the facility with full enthusiasm and high spirits, collectively embarking on the journey of hard work for the new year. They are committed to upholding their original aspirations through practical action and striving to write a new chapter of glory with dedicated effort. At 8:00 AM sharp...

久巨充磁案例：硅膠磁材產品的充磁全流程記錄

2026年2月25日

Automated Magnetic Charging Integrated Solution 充磁設備 充磁自動化 磁測量儀器 充磁服務 在工業制造領域，硅膠磁性產品因兼具柔性特質與磁性能，廣泛應用于智能穿戴、密封組件等場景。其磁性能的精準賦予，核心依賴專業充磁工藝。本次久巨充磁承接硅膠產品充磁項目，成功實現產品磁力從0.01高斯到15.5高斯的跨越式提升，以下為全流程詳…

久巨充磁案例-古董音響喇叭充磁修復，技術與實例介紹

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久巨充磁案例-古董音響喇叭充磁修復，技術與實例介紹

一文讀懂：電機充磁原理、必要性與永磁電機底層邏輯

2026年2月26日

Automated Magnetic Charging Integrated Solution 充磁設備 充磁自動化 磁測量儀器 充磁服務 電機充磁，是永磁同步電機、無刷直流電機等永磁電機制造與維護的核心步驟。它依托電磁感應與磁場能量轉換原理，借助外部強磁場讓永磁體內部磁疇定向排列，從而形成穩定持久的磁性，是保障電機正常運行的基礎環節。 一、充磁的本質：為電機賦予…

Spring Ushers in a New Journey, Action Drives New Chapters｜JIUJU Automation Kicks Off 2026 with Success

2026年2月25日

Magnetizing Equipment | Magnetizing Automation | Magnetic Measuring Instruments | Magnetizing Services Spring Returns, Unveiling a New Chapter — Setting Sail on a New Journey On the eighth day of the first lunar month of 2026, an auspicious day to commence work in the new year, JIUJU Automation was filled with warmth and vitality. Having set aside the leisurely pace of the Spring Festival, all employees gathered at the facility with full enthusiasm and high spirits, collectively embarking on the journey of hard work for the new year. They are committed to upholding their original aspirations through practical action and striving to write a new chapter of glory with dedicated effort. At 8:00 AM sharp...

久巨充磁案例：硅膠磁材產品的充磁全流程記錄

2026年2月25日

Automated Magnetic Charging Integrated Solution 充磁設備 充磁自動化 磁測量儀器 充磁服務 在工業制造領域，硅膠磁性產品因兼具柔性特質與磁性能，廣泛應用于智能穿戴、密封組件等場景。其磁性能的精準賦予，核心依賴專業充磁工藝。本次久巨充磁承接硅膠產品充磁項目，成功實現產品磁力從0.01高斯到15.5高斯的跨越式提升，以下為全流程詳…