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Business ProposalCarpenter Stone/JP Power地方授权木石匠公司的商业提议Introduction介绍I would like to Thank Beilida for the opportunity to develop a working partnership. This proposal will overview the opportunities, challenges and solutions. 我特此想要感谢倍达力能提供如此共同工作的机会，此提议将总的概述我们所面临的机遇和挑战以及解决方案。We offer the following technologies:我们提供以下工业技术设备Ownership In Whole全部所有权 Gel Technology: Breakable gel pigment carrier. Patented凝胶技术：易碎的凝胶颜料载体为专利所有 Bioremediation: Cleaners. Patented生物治理：清洁效果为专利所有Ownership In Part部分所有权 Carpenter Stone: Admixtures for cementitious applications木石匠公司:混合凝胶应用 Nano stains, densifiers, self-cleaners. Patented纳米染色，增密设备，自动清洁，专利所有。 Izonil: Waterproof additives for cementitious applications防水添加剂为胶凝应用。 Basalt: fiber technology from Europe: Pripriatory玄武岩:引进欧洲的光纤技术Relationships关系式We have a network of manufactures of state of the art technology for many applications. These manufacturers can be rolled into the partnership as the opportunity arises.In addition, Elan has worldwide sales and customer base.另外，锐气热枕在全球广泛畅销并且拥有了一定的顾客基础。History and proposal历史性的建议We propose a business partnership with Beilida to utilize part, or all of the above. The communication of utilization of these assets is critical, though simple. We need to define the application, develop a process and timeframe with expectations and then move forward on an opportunity-by-opportunity base. The following reviews the structure:我们建议和倍达力的商业合作能够利用部分或者是以上提及的所有意见。尽管非常简单但是能够充分利用仅有的财富资源去沟通是很有必要的。我们需要定义应用、培养一个过程，让预期的时刻表能更进一步的创造出更多双方互利的机遇根基。以下为评论结构：1. Carpenter Stone木石匠公司Overview of technology技术概况Carpenter Stone is a science technology company. Though it has developed some turnkey products, such as Overlays, Stucco, Countertop, architectural trims in lightweight and standard to name a few, the key asset is its Admixture. This technology has many advantages.木石匠公司是一个科学技术公司。尽管研究出了一些可以立即投入使用的产品，譬如涂料、水泥、橱柜、建筑装饰物用轻盈的材料以及标准规范来命名。他们的最大优点是可混合的。这一项技术有很多的优势。General Strategies:大致策略 Designing micro-structural fiber reinforced cementitious composites, through the use of 用微型光纤混合水泥巩固设计而成。 Low cement-to-water ratios Customized super-admixtures Modern fiber technology, using multi-fiber “cocktails” including both chemical and mechanical techniques Fine aggregatesResulting Characteristics: Increased strength-to-weight ratios Increased tensile and flexural strength Enhanced “read” expands aesthetic capabilities No need for special equipment or special manufacturing processes, facilitating scalabilityCarpenterStone has developed end products with companies such as DuPont, Pilot, Jenmar, Laticrete and CoMex just to name a few. These companies had specific applications that needed either improvement or problems that needed solutions. CarpenterStone developed an Admix to solve these problems. We have over 80 years of combined experience in GFRC applications. We were instrumental in changing the specifications in the United States due to our utilization of patented admixtures, fiber utilization and system development. We believe that a partnership with Beilida will result in the same success. This may require development utilizing current formulations and engineering an admix to address the specifications. With the exception of the few products listed above, CarpenterStone does not offer end products and/or formulations, but rather an Admix to make products better.History with BeilidaClive Shek introduced me to Beilida over one year ago. I presented the technology of CarpenterStone . After that time, Clive Shek has been communicating opportunities for us to work with and solve solutions to GFRC applications. This resulted in another visit in March of this year to address a serious problem with surface cracking. We gathered all the information, visited the manufacturing locations, and reviewed the tool designs, specifications and manufacturing practices. We returned to the United States and put together a proposal to address the problem. We came to the conclusion that the main problem was the design of the face mix and the backing mix. As with all GFRC manufactures, the utilization of fibers in the face mix was not an option due to the thickness (Less than 8mm) and the inability of fiber to be incorporated. This is a major problem because of the difference in coafficiency between the face mix with no fiber and the fiber reinforced backing mix. We were advised that the specification of raw materials could not be changed at this late time in the program, so we developed an admixture that would utilize the same formula of Portland cement, sand, metikalin, mica and TI02, and incorporate a mixture of fibers. We invested all the research and development, raw materials and simulation of product intent. We presented this formula to Beilida along with documentation, technical support and application. Additionally, we sent a video of the process in detail, and samples of the GFRC panels.We stayed in constant communication with Clive Shek and though we were advised that there were still some cracking, we believed, and recommended that the problem was not the new face mix formulation, but rather the manufacturing process of de-molding. Right up to the time of my visit this week, we believed that the face coat formulation we developed would be used on the program. I have since been informed that this formula would not be used.We understand that the future programs would require a flexural specification of 18 mpa. This is a very aggressive objective and almost double the traditional GFRC specifications worldwide, but we realize that with the larger panels, it would be mandatory. To our knowledge, the only way to achieve such a specification would be through fiber technology, most probably a monolithic mesh AR Glass. Also, it would utilize a latex additive, which is not advised for long-term Portland cement applications. However, this is a very labor-intensive process and more importantly a time consuming one as well.Though the material we had sent to Beilida was what we believed to be for the face mix program mentioned above, I was asked to see if we could make adjustments be simply adding more and larger fibers and achieve the 18mpa flexural specification. Though we had success in incorporating a larger fiber load than any pre-mix formula known, and also success in spraying a pre-mix fiber loaded mix, we do not believe we will achieve the expectations that easy. However, we are convinced that the only way in the world to achieve an 18mpa flexural outcome would be utilizing the CarpenterStone technology. With this technology, we can realize a chemical bond without any co-polymers that could adhere to the fiber loads that will have to be incorporated.If this partnership is agreed upon, CarpenterStone will commence at once the development program to achieve your goals. Additionally, we will assign this formula to Beilida on an exclusive basis worldwide. This will give Beilida a competitive edge on a global scale.PricingAdmixture: Admixtures can vary depending on the formulation. However, the price is within 5% from one admixture to another. For example, the price for the Face Coat Admixture is $53 US per Gallon (360.0RMB per Liter) The coverage is approx. 4.8 sm per gallonAccelerator: 15.0 RMB per sm2. Nano Technology, VPMThis patented technology was originally developed and marketed to paint companies to enhance and improve existing formulations. Companies such as Axzo Nobel, Sherwin Wiliams and PPG, to name a few have spent over seven years testing and approving this unique technology. We now are expanding into the cementitious markets and hope Beilida will be its partner in this effort.This technology was originally introduced to the three largest paint and chemical companies in the world; AKZO NOBEL, PPG and Sherwin Williams. These companies conducted independent testing for over 4 years for durability, adhesion, color consistency and various quality requirements. An example of the extensive testing was the durability test. This technology was applied to an automobile and followed the sun for 2 years. Starting in Florida, USA through South America, Australia, Europe, and Asia and back to the USA, this colored surface with nano technology was exposed to every climate and condition in the world. The result was amazing and resulted in nano technology being used in many products today, including the colored sealer, densifier and self cleaner. The addition of nano mirror, rubber, mica etc. gives Beilida the options of flexibility, non-slip, heat reduction, etc.VPM A1, has designed and engineered a lithium based sealer and densifier using innovative NANO glass technology for the polishing of cementitous materials. NANO technology is defined as the science and technology of devices and materials constructed on extremely small scales, as small as individual atoms and molecules. The lithium based sealers and densifiers carries the NANO glass particles deep into the smallest pores also filling them at the same time, creating the ideal substrate for polishing to an extremely dense, hard and highly reflective surface.To begin the process using VPM, A1 Engineered NANO sealers and densifiers, the concrete must first be opened. Using a series of metal bonded 30, 50, 100 and 200 grit pads. Once the surface is properly prepped to no more than 200 grit, the densifier is applied and the polishing process begins. For the highest reflective finish, we recommend an application of the densifier at each pass of the 200, 400, 800 and 1500 grit. As with any surfacing project, there are variations in consistency of the surface. Any manufacture of pads has a complete line to meet the demand of any project or situation. Our engineered NANO sealers and densifiers using innovative nano glass technology conforms any cementitious surface into a nano glass densified, ultra high gloss, low maintenance surface in any commercial, institutional or residential setting while insuring the most eco- friendly, GREEN system available. All polished concrete surfaces are in some way densified. VPM A1, incorporates a NANO glass, water-based / lithium densifier that carries the nano glass particles deep into the surface with each pass to an abrasive resistant, dust free durability, sheen and finish unsurpassed in the industry.Self Cleaner InformationThe distinction between semiconductors and insulators is a matter of convention. In one approach semiconductors are considered as a type of insulator with a narrow band gap. Insulators with a larger band gap, usually greater than 3 eV are not considered semiconductors and generally do not exhibit semi conductive behavior under practical conditions. The electron mobility plays a key role in determining a materials informal classification. As you stated, the band gap energy of pure anatase TiO2, around 3.2 eV, only allows the crystal to absorb ultraviolet (UV) light, which accounts for about 4% of the whole sunlight spectrum. The derivation of visible spectra data in the case of a successfully doped TiO2, is due to the formation of a dopant energy level within the band gap of TiO2. The electronic transition from the valence band to dopant level or from dopant level to conduction band can effectively red shift (move the efficacy of photocatalysis toward the visible spectrum) the band edge absorption threshold.Our proprietary technology is based upon our method of producing a hybrid anatase Nano crystal that utilizes the visible light spectrum to increase the efficacy of photocatalysis. The convention that VPM A1 has used in our laboratories to empirically measure the lowering of the bandgap is through two testing conventions.1. Measuring the UV-Visible light absorption of the material.2. Measuring the effect of photocatalysis by methylene blue remediation. This data is provided in the attached pdf. document. The data reveals comparative and great contrast of the absorbance of the leading Japan commercial photocatalyst vs. VPM A1 (Nano Smart Self Cleanl). The high absorption qualities of the PMHNC in the UV as well as within the visible spectrum provides a direct correlation of significant contrast in methylene blue remediation performance and has been repeatedly demonstrated in our laboratory. The empirical data draws a direct correlation to the lowering of the bandgap.This technology, in addition to nano stains and nano self-cleaning will set the standard for GFRC applications, and Beilida will be the leader.PRODUCTCODEDescription Chrom BriteCB50005um, mirror$31.43 $30.00 Chrom BriteCB400013um, mirror$23.57 $22.14 Chrom BriteCB450045um, mirror$22.00 $20.57 Chrom BriteCB100100um, mirror$20.43 $19.00 Chrom BriteCB10001000um mirror$18.86 $17.43 Clear GlassCG-180180um$20.00 $18.57 Clear GlassCG-3013um$23.57 $22.14 $0.00 Industrial BeadsIB-150150um$17.29 $15.86 Industrial BeadsIB-4545um$15.71 $14.29 Specialized BeadsSB-1818um$23.57 $22.14 $0.00 Scattered ReflectiveSilver S-15020-150um$116.89 n/aColored Safety Glitter $0.00 $0.00 Scattered ReflectiveSilver S-50050-500um$105.14 n/aColored Safety Glitter $0.00 $0.00 Scattered Reflective Sliver S-25050-200um$116.89 n/aColored Safety Glitter $0.00 $0.00 Scattered ReflectiveGold G-25050-200um$111.69 n/aColored Safety GlitterPRODUCTCODEDescription Price/QuantityPrice/Quanti