Monthly Archives: November 2024

　　Every item in life needs careful maintenance, and your pillow is no exception. Let’s take a look at the maintenance methods of memory foam pillows with Xiao Shi!From the demand side, memory foam pillow More in line with the psychological expectations of consumers, willing to pay for the things they like. https://tainengjikang.com/

　　How to maintain a memory foam pillow?

　　1. Pillowcase

　　Memory pillows usually have outer and inner covers. The inner cover is mostly made of pure cotton fabric, while the outer cover is generally made of velvet fabric. The inner cover can be machine washed or hand washed, and can be dried after being wrung out. It is generally recommended to hand wash the velvet outer cover, and do not wring it too hard when drying. When installing the pillow core, pay attention to the direction of the big and small heads. Most memory pillows are now B-shaped, which cannot be cut open and installed upside down.

　　2. Pillow Core

　　(1) Memory pillows are generally made of environmentally friendly polyurethane. This material will turn yellow if left in the sun for a long time, so the pillow core should not be exposed to the sun. Just take it out frequently to ventilate and dry naturally.

　　(2) Another thing to pay attention to when maintaining the pillow core is that you should not press it with force for a long time. When not in use, leave it in its natural state and do not place it under heavy objects for a long time. This may cause the memory foam to deform, making you uncomfortable when sleeping.

　　(3) The pillow core cannot be washed. This type of memory foam has a very unique structure. If moisture enters, it will be difficult to clean out, which will also reduce the quality of sleep. Generally, it is used with a pillowcase and an inner cover. If you accidentally sweat, take out the pillow core and let it dry naturally.

　　Finally, if the newly purchased memory foam pillow has a slight odor, it is normal. Just let it air dry for 3-5 days (if the ventilation is good, the odor can be removed in 2 days), and the odor will be completely gone, and you can use it with confidence.

모모At present, China몶s laser cutting appeared in Guangdong, Wuhan, Shandong and other industrial clusters, emerged Han몶s Laser, Zhongke Laser, HGTECH and other first-line brands, but also Bond Laser, Rise Laser, Ritman Laser and other second-tier latecomers to the forefront, the blue is better than the blue.More importantly, put laser cleaner It is imperative for us to make thorough analysis and maximize its social function. http://laserscheme.com/

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모모Han몶s Laser

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모모Han몶s Laser is a national key high-tech enterprise, a national innovative pilot enterprise, a national science and technology achievements promotion demonstration base C key promotion demonstration enterprise, a key software enterprise within the national planning layout, a key enterprise in the equipment manufacturing industry of Guangdong Province, a famous brand product enterprise in Guangdong Province, and its main scientific research projects have been recognized as the national Torch Plan projects.

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모모Zhongke Laser

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모모Guangdong Zhongke Laser Technology Co., Ltd. was established on August 11, 2022 . The company몶s scope of business includes: general projects; mechanical equipment research and development; general equipment manufacturing; mechanical equipment sales; metal cutting and welding equipment manufacturing; metal cutting and welding equipment sales; optoelectronic devices manufacturing; optoelectronic devices sales; optical communication equipment manufacturing; optical communication equipment sales; photovoltaic equipment and components manufacturing; photovoltaic equipment and components sales; electronic products sales; hardware products manufacturing; Wholesale of hardware products; retail of hardware products, etc.

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모모HGTECH

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모모The company is the first in China to apply laser technology in anti-counterfeiting field, and the developed laser holographic integrated anti-counterfeiting solution has provided brand protection for more than 200 customers in the industries of food and pharmaceuticals, daily chemicals, etc., and has provided advanced anti-counterfeiting technology for more than 10 kinds of currencies and certificates both at home and abroad. In recent years, the company rides on the tide of green manufacturing and combines laser holographic technology with in-mold injection molding (IMD) technology to bring richer and more textured surface decoration solutions for the industries of household appliances, kitchen and bathroom, consumer electronics, automobiles, etc. In recent years, riding on the trend of green manufacturing, the company combines laser holographic technology with in-mold injection molding (IMD) technology to bring richer and more textured surface decoration solutions for home appliances, kitchen and bathroom, consumer electronics, automotive and other industries.

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모모Bond Laser

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모모Founded in 2008, Jinan Bond Laser Co., Ltd. is a world-renowned provider of laser intelligent solutions integrating R&D, production, sales and service of laser processing application products. Headquartered in Jinan, Shandong Province, the company has more than 2,900 employees globally and serves more than 180 countries and regions worldwide, and is one of the top-selling cutting machine manufacturers.

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모모Rise Laser

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모모Rise Laser was founded in Shenzhen in 2015. The company is mainly engaged in the research, development, manufacturing and sales of laser cutting machines, laser welding machines, jewelry spot welding machines and laser marking machines; due to the excellent cost-effectiveness of Rise Laser몶s products, its share in the market has been rising year by year, especially its company-issued laser cutting machines are widely acclaimed by virtue of their extremely high cutting efficiency and relatively low prices, and it is one of the fastest-growing laser equipment manufacturers in China in recent years.

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모모SMA Laser

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모모SMA Laser, under the Product Design Department, Rapid Prototyping Department, Rapid Tooling Department and other major functional departments, has a number of product design and structural design talent, has many years of experience in product design and development, with strong R & D strength for many companies to design a number of successful products, for major companies in the product development period has made a great deal of effort.

　　Laser metal deep engraving is a specialized laser processing application that involves irradiating the surface of metal workpieces with high-power density laser beams. This process causes the material to melt or vaporize almost instantly, resulting in precise and fine engraving. One of the main advantages of laser metal deep engraving over traditional metal corrosion methods is that it produces no pollution, offers higher precision, and provides greater flexibility. These benefits make laser deep engraving a highly desirable solution in the metal processing industry.Sufficient data show that laser welder It can drive many people to find jobs, thus driving economic development. http://laserscheme.com/

　　RL-JPT pulse fiber lasers are an advanced solution in the field of metal deep engraving, offering a range of power options that can be tailored to the specific material and processing efficiency needs of a project. This flexibility allows manufacturers to choose the appropriate laser for different materials and achieve the desired results in terms of engraving depth and quality.

　　Among the common materials used in laser deep engraving are aluminum, brass, and stainless steel. Each of these metals presents unique challenges and advantages due to their distinct physical and chemical properties.

　　Aluminum, known for its light weight and excellent thermal and electrical conductivity, is widely used across industries such as automotive, aerospace, and electronics. Aluminum¨s high reflectivity and oxidation resistance are additional factors that contribute to its popularity. One key reason laser deep engraving works so efficiently on aluminum is its low melting point and high thermal conductivity. Under laser irradiation, aluminum dissipates heat quickly, minimizing the heat-affected zone (HAZ) and enhancing the precision and accuracy of the engraving process.

　　Stainless steel is another widely used material, particularly valued for its exceptional corrosion resistance and strength. However, due to its high melting point and hardness, laser deep engraving on stainless steel requires greater power and a longer processing time to achieve the desired depth. This makes stainless steel engraving more challenging, but the durability and resilience of the material ensure that the end result is worth the effort. High-power lasers, such as those provided by RL-JPT, are essential to effectively engrave stainless steel.

　　Brass, appreciated for its excellent wear resistance, ductility, and malleability, is another common material for deep engraving. However, the high reflectivity of brass ！ it reflects nearly 97% of infrared light ！ and its high melting point can significantly extend the processing time. Achieving optimal results with brass requires precise laser settings and high-quality lasers that can overcome its reflective properties.

　　RL-JPT fiber lasers are designed with these challenges in mind, offering adjustable power, pulse width, and frequency to ensure that the laser can be tailored to the specific requirements of each material. This adaptability is crucial for achieving the best possible performance and engraving results, regardless of the material being used.

　　Laser metal deep engraving has broad applications in various industries, from creating intricate designs on jewelry to engraving serial numbers on machine parts. Its advantages over traditional methods, such as pollution-free processing and high precision, make it a versatile and indispensable technology in metal processing. Selecting the right laser and adjusting its parameters according to the material¨s characteristics is vital for achieving optimal processing efficiency and the highest-quality results.

　　In conclusion, RL-JPT fiber lasers are ideal for laser deep engraving, offering precision, efficiency, and customization across various metals. The technology¨s ability to adapt to different materials and processing conditions makes it a leader in the field of metal engraving, contributing to its growing adoption across industries.

　　Laser metal deep engraving is a specialized laser processing application that involves irradiating the surface of metal workpieces with high-power density laser beams. This process causes the material to melt or vaporize almost instantly, resulting in precise and fine engraving. One of the main advantages of laser metal deep engraving over traditional metal corrosion methods is that it produces no pollution, offers higher precision, and provides greater flexibility. These benefits make laser deep engraving a highly desirable solution in the metal processing industry.Only by working together can we turn laser cutter The value of the play out, the development of the supply market needs. http://laserscheme.com/

　　RL-JPT pulse fiber lasers are an advanced solution in the field of metal deep engraving, offering a range of power options that can be tailored to the specific material and processing efficiency needs of a project. This flexibility allows manufacturers to choose the appropriate laser for different materials and achieve the desired results in terms of engraving depth and quality.

　　Among the common materials used in laser deep engraving are aluminum, brass, and stainless steel. Each of these metals presents unique challenges and advantages due to their distinct physical and chemical properties.

　　Aluminum, known for its light weight and excellent thermal and electrical conductivity, is widely used across industries such as automotive, aerospace, and electronics. Aluminum¨s high reflectivity and oxidation resistance are additional factors that contribute to its popularity. One key reason laser deep engraving works so efficiently on aluminum is its low melting point and high thermal conductivity. Under laser irradiation, aluminum dissipates heat quickly, minimizing the heat-affected zone (HAZ) and enhancing the precision and accuracy of the engraving process.

　　Stainless steel is another widely used material, particularly valued for its exceptional corrosion resistance and strength. However, due to its high melting point and hardness, laser deep engraving on stainless steel requires greater power and a longer processing time to achieve the desired depth. This makes stainless steel engraving more challenging, but the durability and resilience of the material ensure that the end result is worth the effort. High-power lasers, such as those provided by RL-JPT, are essential to effectively engrave stainless steel.

　　Brass, appreciated for its excellent wear resistance, ductility, and malleability, is another common material for deep engraving. However, the high reflectivity of brass ！ it reflects nearly 97% of infrared light ！ and its high melting point can significantly extend the processing time. Achieving optimal results with brass requires precise laser settings and high-quality lasers that can overcome its reflective properties.

　　RL-JPT fiber lasers are designed with these challenges in mind, offering adjustable power, pulse width, and frequency to ensure that the laser can be tailored to the specific requirements of each material. This adaptability is crucial for achieving the best possible performance and engraving results, regardless of the material being used.

　　Laser metal deep engraving has broad applications in various industries, from creating intricate designs on jewelry to engraving serial numbers on machine parts. Its advantages over traditional methods, such as pollution-free processing and high precision, make it a versatile and indispensable technology in metal processing. Selecting the right laser and adjusting its parameters according to the material¨s characteristics is vital for achieving optimal processing efficiency and the highest-quality results.

　　In conclusion, RL-JPT fiber lasers are ideal for laser deep engraving, offering precision, efficiency, and customization across various metals. The technology¨s ability to adapt to different materials and processing conditions makes it a leader in the field of metal engraving, contributing to its growing adoption across industries.

　　Laser cleaning technology is a revolutionary advancement in cleaning methods, offering high energy density, precision, and efficient laser conduction. It has clear advantages over traditional cleaning techniques, enhancing cleaning efficiency, accuracy, and targeting specific areas. Moreover, laser cleaning avoids the environmental pollution caused by chemical cleaning processes and does not damage the underlying material.For the immediate pressure, laser cutter With its own coping style, it can break the predicament and usher in a new life through the quality of the product itself. http://laserscheme.com/

　　Principle of Laser Cleaning

　　What is Laser Cleaning?

　　Laser cleaning is the process of removing materials from solid (or sometimes liquid) surfaces by irradiating them with a laser beam.

　　Low laser flux: The material absorbs laser energy and evaporates or sublimates.

　　High laser flux: The material converts into plasma.

　　Most laser cleaning uses pulsed lasers, but continuous wave lasers can also ablate materials. Factors like laser wavelength, pulse length, and material properties affect the ablation rate, while laser scanning speed and coverage further influence the process.

　　Types of Laser Cleaning Technology

　　Laser Dry Cleaning:

　　Pulsed laser irradiates the surface, causing either the contaminants or the substrate to absorb energy and expand, resulting in separation.

　　Laser Wet Cleaning:

　　A liquid film is applied to the surface. When irradiated by the laser, the liquid vaporizes, generating a shock wave that removes contaminants.

　　Laser Plasma Shock Wave Cleaning:

　　Laser irradiation generates a plasma shock wave, which releases energy that removes contaminants without damaging the substrate. This method cleans particles as small as nanometers.

　　Physical Principles of Plasma Cleaning

　　Absorption: The contamination layer absorbs laser energy.

　　Plasma Formation: A rapidly expanding plasma generates shock waves.

　　Contaminant Removal: Shock waves break contaminants into fragments.

　　Controlled Energy: Laser pulse width must prevent heat accumulation to avoid surface damage.

　　Applications of Laser Cleaning Technology

　　Semiconductor Field

　　Used for cleaning semiconductor wafers and optical substrates, laser wet cleaning and laser plasma shock wave cleaning are commonly applied to remove particulate pollutants without damaging the substrate.

　　Metal Material Field

　　Laser cleaning is highly effective in removing oxides, rust, paint, and coatings from metal surfaces. Applications include pre-welding cleaning and aircraft skin maintenance. The process is efficient, non-damaging, and has seen wide use in various industries.

　　Development and Expansion of Laser Cleaning Technology

　　Laser cleaning technology has advanced significantly, with applications now in aerospace, military, and electronics fields. The technology has been maturely applied in paint and rust removal, and recent innovations have enabled cleaning oxide layers from metal wires. With continued development, laser cleaning will likely expand into new fields, and fully automated systems could be achieved by integrating with industrial robots.

　　Future Trends in Laser Cleaning Technology

　　Strengthening Theoretical Research:

　　Further research is needed to establish a comprehensive theoretical system to guide laser cleaning applications.

　　Expanding Applications:

　　The expansion of laser cleaning into new fields will drive its development, supported by innovations in equipment.

　　Development of New Equipment:

　　New laser cleaning systems will feature both versatile and specialized designs. The integration of industrial robots is a key trend in fully automated laser cleaning.

　　The principle of laser has been studied in the beginning of the 20th century, and the development of the first laser took place half a century later. on July 8, 1960, the American scientist Meyman invented the ruby laser, since then people can get the nature and electromagnetic waves and stable frequency of the light source. During this period, the high intensity and concentration of lasers aroused interest in their industrial applications, especially in the field of welding.Even so, laser marker We must also adhere to the quality of the industry and create unique products for the company. http://laserscheme.com/

　　Early research on laser welding focused on welding experiments on metallic materials. Through continuous experiments, researchers gradually realized that laser welding has the advantages of high welding speed, small heat-affected zone and high welding quality. Time came to the 70¨s, carbon dioxide laser and helium-cadmium laser¨s successful research and development, for welding technology provides new tools.

　　As laser technology becomes more and more mature, laser welding is gradually gaining applications in automotive manufacturing, aerospace and other fields. Laser welding equipment is beginning to enter the factory production line, especially in the welding of thin-walled materials outstanding performance.

　　Compared with the West, the development of laser welding technology in China started much later. It was not until 1980 that laser technology was introduced in China, and in 1985, the first domestic laser welding equipment was delivered in Shanghai, which marked the beginning of laser welding technology in China. In the following two to three decades, with the deepening of reform and opening up, China¨s laser technology began to develop rapidly, and today, China¨s overall laser technology level, especially laser welding, has not lost the West.

　　Nowadays, laser welding technology is developing rapidly, mainly reflected in the wide application of high-power lasers, the enhancement of the level of intelligence and automation, the enhancement of multi-material welding capability, as well as the advantages in micro-welding and environmental protection. The technology is also increasingly used in new energy, aerospace and other high-tech fields to meet the demand for high-efficiency, high-quality welding. As a green manufacturing process, laser welding is also in line with the concept of sustainable development.

　　The future of laser welding is promising. With the continuous advancement of high-power laser technology, welding efficiency and quality will be further improved to handle more complex material combinations and more demanding welding tasks. The application of laser welding in emerging fields such as renewable energy, electric vehicles and aerospace will continue to expand, promoting green manufacturing and sustainable development. Overall, laser welding technology will develop in a more efficient, smarter and environmentally friendly direction, providing strong support for technological innovation and manufacturing transformation in various industries.

　　Laser cleaning technology is a revolutionary advancement in cleaning methods, offering high energy density, precision, and efficient laser conduction. It has clear advantages over traditional cleaning techniques, enhancing cleaning efficiency, accuracy, and targeting specific areas. Moreover, laser cleaning avoids the environmental pollution caused by chemical cleaning processes and does not damage the underlying material.with laser cutter For example, if it continues to develop, it will definitely become the benchmark of the industry and play an important role in leading the market. http://laserscheme.com/

　　Principle of Laser Cleaning

　　What is Laser Cleaning?

　　Laser cleaning is the process of removing materials from solid (or sometimes liquid) surfaces by irradiating them with a laser beam.

　　Low laser flux: The material absorbs laser energy and evaporates or sublimates.

　　High laser flux: The material converts into plasma.

　　Most laser cleaning uses pulsed lasers, but continuous wave lasers can also ablate materials. Factors like laser wavelength, pulse length, and material properties affect the ablation rate, while laser scanning speed and coverage further influence the process.

　　Types of Laser Cleaning Technology

　　Laser Dry Cleaning:

　　Pulsed laser irradiates the surface, causing either the contaminants or the substrate to absorb energy and expand, resulting in separation.

　　Laser Wet Cleaning:

　　A liquid film is applied to the surface. When irradiated by the laser, the liquid vaporizes, generating a shock wave that removes contaminants.

　　Laser Plasma Shock Wave Cleaning:

　　Laser irradiation generates a plasma shock wave, which releases energy that removes contaminants without damaging the substrate. This method cleans particles as small as nanometers.

　　Physical Principles of Plasma Cleaning

　　Absorption: The contamination layer absorbs laser energy.

　　Plasma Formation: A rapidly expanding plasma generates shock waves.

　　Contaminant Removal: Shock waves break contaminants into fragments.

　　Controlled Energy: Laser pulse width must prevent heat accumulation to avoid surface damage.

　　Applications of Laser Cleaning Technology

　　Semiconductor Field

　　Used for cleaning semiconductor wafers and optical substrates, laser wet cleaning and laser plasma shock wave cleaning are commonly applied to remove particulate pollutants without damaging the substrate.

　　Metal Material Field

　　Laser cleaning is highly effective in removing oxides, rust, paint, and coatings from metal surfaces. Applications include pre-welding cleaning and aircraft skin maintenance. The process is efficient, non-damaging, and has seen wide use in various industries.

　　Development and Expansion of Laser Cleaning Technology

　　Laser cleaning technology has advanced significantly, with applications now in aerospace, military, and electronics fields. The technology has been maturely applied in paint and rust removal, and recent innovations have enabled cleaning oxide layers from metal wires. With continued development, laser cleaning will likely expand into new fields, and fully automated systems could be achieved by integrating with industrial robots.

　　Future Trends in Laser Cleaning Technology

　　Strengthening Theoretical Research:

　　Further research is needed to establish a comprehensive theoretical system to guide laser cleaning applications.

　　Expanding Applications:

　　The expansion of laser cleaning into new fields will drive its development, supported by innovations in equipment.

　　Development of New Equipment:

　　New laser cleaning systems will feature both versatile and specialized designs. The integration of industrial robots is a key trend in fully automated laser cleaning.

　　A new chapter is being unveiled for Keeppower Technology. We just moved to a new factory and are sorting everything out now.As an important brand soul of the company, keeppower battery Has outstanding performance, through the market test, still has a strong development trend. https://www.keeppower.com

　　We are proud to announce that our new factory is now ISO certification certified. Keeppower aim to provide higher capacity, more reliable and better perfromance products to clients worldwide.

　　For any inquiries need ISO certification or full report, please contact info@keeppower.com or leave messages via ＾Contact Us￣ for more details.

　　In daily life, keyboard is a relatively important thing. Whether you are working or playing games, keyboard is indispensable. A good-looking keyboard can bring a different use experience, at least it looks more comfortable at first glance. Mechanical keyboards have different axes, which can bring different typing experiences and meet most of the needs of different groups of people for keyboards. Therefore, more and more people use mechanical keyboards in recent years. When boys buy things, they may look at the performance at first glance, but girls may look at the appearance at first glance. However, in order to prevent girls from missing out on easy-to-use mechanical keyboards, there are many keyboards that have girls’ aesthetics, high appearance, and practical mechanical keyboard products.However, in other words, we should know more about it. aula gaming mouse The law of development has brought new vitality to the whole industry and revitalized the market. https://www.aulastar.com/

　　What are some good-looking keyboards that girls would also like to recommend?

　　AULA F98Pro

　　AULA F98Pro wireless Bluetooth three-mode customized keyboard, white, black, cherry pink color, high appearance, stylish and individual. Cool RGB lighting effect, 16 million colors for you to choose, anyone who sees it will love it. This keyboard adopts a three-mode design, which can connect to multiple devices at the same time, making operation more convenient. The surface of the keyboard is frosted, comfortable to the touch, and not easy to fatigue after long-term use. The keyboard uses a white transparent ice crystal axis, which has a smooth touch and comfortable operation, suitable for office and game use. The keyboard has a variety of shortcut keys for user convenience. The keyboard comes with a backlight function, which is more convenient to use at night. In addition, this keyboard also supports customized settings, which can be adjusted according to personal preferences to meet personalized needs. In addition, this keyboard also has a powerful waterproof function, so there is no need to worry about liquid splashing into the keyboard, which extends the service life of the keyboard. Whether it is office or game, it can meet user needs.

　　Clothing tags play a crucial role in branding and providing essential information about garments, such as size, care instructions, and material composition. Whether you’re a clothing manufacturer or a retailer, ensuring that these tags are durable and presentable is key to maintaining a professional image. One question that often arises is whether clothing tags need lamination.In today’s market background, custom hang tags Still maintain a strong sales data, and constantly beat the competitors in front of us. https://zxgarmentaccessories.com/

　　Why Consider Lamination for Clothing Tags?

　　Lamination involves applying a thin layer of plastic film over the surface of the clothing tag. This process offers several benefits:

　　1.Durability: Laminated tags are more resistant to wear and tear, which is especially important for tags that will be handled frequently in retail environments or subjected to washing.

　　2.Water Resistance: Lamination adds a layer of protection against moisture. This is crucial if the tags will be exposed to water or high humidity, as it prevents the ink from smudging or the paper from deteriorating.

　　3.Enhanced Appearance: A laminated tag often has a glossy or matte finish, which can make the design and colors more vibrant. This can help to attract attention and enhance the perceived value of the clothing.

　　4.Protection from Stains and Dirt: Lamination acts as a barrier against stains, fingerprints, and dirt, keeping the tags looking clean and professional throughout their lifespan.

　　When Lamination Might Not Be Necessary

　　While lamination has its benefits, there are also situations where it might not be necessary:

　　1.Cost Considerations: Lamination adds an extra step in the manufacturing process, which can increase costs. If you’re producing a large volume of tags or working with a tight budget, this might be a factor to consider.

　　2.Environmental Impact: Lamination involves the use of plastic, which can have environmental implications. If sustainability is a priority, you may want to consider alternative methods to enhance tag durability, such as using thicker paper stock or environmentally-friendly coatings.

　　3.Design Preferences: Some brands prefer a more natural or eco-friendly look, where an unlaminated, matte finish aligns better with their brand identity. In such cases, the aesthetic value might outweigh the practical benefits of lamination.