This week, three durable goods stocks are improving their overall ratings on Portfolio Grader. Each of these stocks is rated an “A” (“strong buy”) or “B” overall (“buy”).
Top 10 Life Sciences Companies To Invest In Right Now: Austin Engineering Ltd (ANG)
Austin Engineering Limited is engaged in the manufacture, repair, overhaul and supply of mining attachment products, general steelwork structures and other associated products and services for the industrial and resources-related business sectors. The Company operates in four segments: Australia, which includes mining equipment, other products and repair and maintenance services; Americas, which includes mining equipment and other products, consisting of North America and South America; Asia, which includes Indonesia for mining equipment and other products, and the Middle East, which includes aluminum smelter equipment and products. In October 2013, Austin Engineering Limited completed the acquisition of the business of Servigrut. Advisors' Opinion:- [By Julia Leite]
South African miners rallied after a recovery in gold prices. The FTSE/JSE Africa All-Share Index climbed 1.5 percent in Johannesburg, with Harmony Gold Mining Co. (HAR) and AngloGold Ashanti Ltd. (ANG) adding at least 5.2 percent.
5 Best Machinery Stocks To Own Right Now: Kadant Inc (KAI)
Kadant Inc., incorporated in November 1991, is a supplier of equipment used in the global papermaking and paper recycling industries and a manufacturer of granules made from papermaking byproducts. Through its Papermaking Systems segment, the Company develops, manufactures and markets a range of equipment and products for the global papermaking, paper recycling, and process industries. Through its Fiber-based Products business, the Company manufacture and sell granules derived from pulp fiber for use as carriers for agricultural, home lawn and garden, and professional lawn, turf and ornamental applications, as well as for oil and grease absorption. Its Papermaking Systems segment consists of product lines, such as stock-preparation, fluid-handling, doctoring and water-management. On May 27, 2011, its subsidiary, Kadant Johnson Europe B.V., acquired all the interests in m-clean papertech holding AB. In April 2013, it completed the acquisition of Companhia Brasileira de Tecnologia Industrial (CBTI).
The Company�� customer base includes major global paper manufacturers and with its equipment found in most of pulp and paper mills. The Company manufactures its products in nine countries in Europe, North and South America and Asia. It develop, manufacture and market complete custom-engineered systems and equipment, as well as standard individual components, for pulping, de-inking, screening, cleaning, and refining recycled and virgin fibers for preparation for entry into the paper machine. Its principal stock-preparation products include recycling and approach flow systems and Virgin pulping process equipment.
The Company develop, manufacture and market rotary joints, precision unions, steam and condensate systems, components, and controls used primarily in the dryer section of the papermaking process and during the production of corrugated boxboard, metals, plastics, rubber, textiles, chemicals and food. Its principal fluid-handling systems include rotary joints, siphons, turbul! ator bars, and engineered steam and condensate systems. Its mechanical devices, used with rotating shafts, allow the transfer of pressurized fluid from a stationary source into and out of rotating machinery for heating, cooling, or the transfer of fluid power. Its devices, installed primarily inside the rotating cylinders of paper machines, are used to remove condensate from the drying cylinders through rotary joints located on either end of the cylinder. Its steel or stainless steel axial bars, installed on the inside of cylinders, are used to induce turbulence in the condensate layer to improve the uniformity and rate of heat transfer through the cylinders. Its steam systems control the flow of steam from the boiler to the paper drying cylinders, collect condensed steam, and return it to the boiler to improve energy efficiency during the paper drying process.
The Company develop, manufacture and market a range of doctoring systems and related consumables that continuously clean rolls to keep paper machines running efficiently; doctor blades made of a variety of materials to perform functions, including cleaning, creping, web removal, flaking, and the application of coatings, and profiling systems that control moisture, Web curl, and gloss during paper converting. Its principal doctoring products include doctor systems and holders, profiling systems and doctor blades. Its doctor systems clean papermaking rolls to maintain the operation of paper machines and other equipment by placing a blade against the roll at a constant and uniform pressure. A doctor system consists of the structure supporting the blade and the blade holder. It offers profiling systems that control moisture, Web curl, and gloss during paper converting. It manufacture doctor and scraper blades made of a variety of materials, including metal, bi-metal, or synthetic materials that perform a variety of functions, including cleaning, creping, Web removal, flaking and the application of coatings.
The Company devel! ops, manu! facture and markets water-management systems and equipment used to continuously clean paper machine fabrics and rolls, drain water from pulp mixtures, form the sheet or Web, and filter the process water for reuse. Its principal water-management systems include shower and fabric-conditioning systems, formation systems, and water-filtration systems. Its shower and fabric-conditioning systems assist in the removal of contaminants that collect on paper machine fabrics used to convey the paper Web through the forming, pressing and drying sections of the paper machine. A typical paper machine has between 3 and 12 fabrics. It supplies structures that drain, purify, and recycle process water from the pulp mixture during paper sheet and Web formation. It offer a variety of filtration systems and strainers that remove contaminants from process water before reuse and recover reusable fiber for recycling back into the pulp mixture.
The Company competes with Voith Paper GmbH, Metso Corporation, Maschinenfabrik Andritz AG, Deublin Company, Barco Company, Christian Maier GmbH & Co. KG, Duff-Norton Company, Joh. Clouth GmbH & Co. KG, Bonetti, S.p.A., Metso Corporation and IBS-Paper Performance Group.
Advisors' Opinion:- [By Seth Jayson]
Calling all cash flows
When you are trying to buy the market's best stocks, it's worth checking up on your companies' free cash flow once a quarter or so, to see whether it bears any relationship to the net income in the headlines. That's what we do with this series. Today, we're checking in on Kadant (NYSE: KAI ) , whose recent revenue and earnings are plotted below.
5 Best Machinery Stocks To Own Right Now: Fidia SpA (FDA)
Fidia SpA is an Italy-based company primarily engaged in the production of numerical controls and machine tools. The Company�� activities are divided into three main business lines. In the High-speed Milling Systems, it is involved in the production and sale of milling heads kits and cutting-edge equipment. Through the Numerical Controls, Dives and Software sector, it is active in the manufacture of numerical controls for milling systems, as well as in the development and distribution of computer-aided design (CAD) and computer-aided manufacturing (CAM) software. The After-sales Service sector includes the provision of technical services, sale of spare parts and scheduled maintenance contracts. The Company operates in Germany, France, Brazil, China, Poland and India, among others. Advisors' Opinion:- [By Patricio Kehoe]
Despite recent anti-tobacco laws passed by the European Union and the Food and Drug Administration (FDA) in the U.S, the company�� pricing power has helped maintain its margins. In 2012, for example, Phillip Morris hiked prices on its products in Russia, Germany, Belgium, Canada, France, Greece and Spain, among others. Although the necessary measure caused substantial volume declines in these countries, consumers rapidly became accustomed to the increased prices, and returned to their habitual product consumption. Given the success of this strategy, the firm is likely to rely on it in Japan for 2014, where taxes are expected to increase yet again by 8%, after the 40% spike in October 2010.
- [By Steven Silver]
Its Apremilast is currently under Food and Drug Administration (FDA) review for the anti-inflammatory condition, psoriatic arthritis, and has also shown promise in such indications as psoriasis and ankylosing spondylitis.
- [By Rahul Chattaraj]
Every year more and more people are becoming health conscious and healthcare is one such industry which I feel can never be in slump. It�� is just brilliant of Apple to embed a hardware in a smartphone which will be able to cash on this opportunity. The iPhone 5S already has the hardware components to support the Healthbook app and once the iOS 8 is released for the next iPhone model and upgrades are available for the iPhone 5S, Apple will be poised to see huge surge in the demand for its devices. Certain incidents such as the top Apple executives meeting the US Food and Drug Administration (FDA), and former Mashimo Corp. Chief Medical Officer Michael O'Reilly joining Apple are clearly hinting that the company�� mobile health dreams will very soon turn into reality.
5 Best Machinery Stocks To Own Right Now: GT Advanced Technologies Inc (GTAT)
GT Advanced Technologies Inc., incorporated on September 27, 2006, is diversified technology company with crystal growth equipment and solutions for the global solar, light emitting diode (LED) and electronics industries. The Company operates in three segments: its polysilicon business, its photovoltaic (PV), business and its sapphire business. The Company's principal products are Silicon Deposition Reactors (SDR) and related equipment used to produce polysilicon, the key raw material used in silicon-based solar wafers and cells; Advanced sapphire crystallization furnaces (ASF) which are used to crystallize sapphire boules, and Directional solidification (DSS) furnaces and related equipment used to cast multicrystalline and MonoCast crystalline silicon ingots. On January 7, 2013, the Company announced the idling of its HiCz pilot manufacturing facility in Hazelwood, Missouri. On November 8, 2012, the Company acquired certain assets of Twin Creeks Technologies, Inc. (Twin Creeks). In May 2013, the Company acquired the business of Thermal Technology LLC.
PV Business
The focus of the Company's PV business is the development, manufacture and sales of crystallization growth furnaces to produce silicon ingots used in the production of solar wafers. The Company's principal product line has been the DSS family of casting furnaces that are used to produce multicrystalline ingots and MonoCast ingots. As of December 31, 2012, the Company shipped approximately 3,300 DSS crystallization furnaces. The ingots are used to make photovoltaic (PV) solar wafers and cells. HiCz, or continuous Czochralski (Cz) growth process, produces monocrystalline ingots that are designed to produce more efficient wafers. The Company�� DSS furnace is a specialized furnace used to melt polysilicon and cast multicrystalline ingots. Multicrystalline ingots are used to produce solar wafers, which ultimately become solar cells. The Company markets its DSS crystallization furnaces under the names DSS450HP and DSS6! 50. The Company's largest capacity DSS furnace, the DSS650, is capable of producing ingots that weigh up to 650 kilograms using standard silicon feedstock. In January 2012, the Company introduced its MonoCast silicon casting technology that uses the DSS furnace architecture to produce ingots comprised of a high percentage of monocrystalline material. The Company is markets MonoCast technology under the name DSS450 MonoCast.
The Company�� ancillary equipment provides operators with material handling assistance during the preparation of the crucible before it is loaded with silicon and during the loading and unloading of the crucible into the DSS furnace chamber at the start of the growth process and out of the DSS furnace chamber at the conclusion of the ingot growth process. The Company's ancillary equipment includes crucible coating stations, crucible manipulators, loaders/unloaders, extraction tools and other material handling systems required to safely transport material during the ingot growth process. The Company sells replacement parts and consumables used in its DSS furnaces and other PV equipment.
Polysilicon Business
The Company's polysilicon business offers Silicon Deposition Reactors, which utilize the chemical vapor deposition process, and related trichlorosilane (TCS) technology and equipment along with engineering services to existing polysilicon producers and new market entrants. The Company's polysilicon business focuses on product design, quality control, engineering services, project management and process development related to the production of polysilicon. It markets its SDR reactors under the names SDR300, SDR400, SDR 500 and SDR 600. The Company provides equipment, technology and engineering services for the production and purification of TCSand silane. This hydrochlorination technology eliminates the need for silicon tetrachloride converters which are required when using certain other polysilicon production technology. The Company also pr! ovides an! cillary equipment and technologies for producing seed rods used in its SDR reactors and for handling and processing the polysilicon rods into a finished product.
Sapphire Business
The Company's sapphire business markets and sells of the Company's ASF systems to customers to enable them to produce sapphire material. The Company also produces sapphire material, on a limited basis, for the LED and other specialty markets at its sapphire pilot production facility in Massachusetts. Its ASF systems produce monocrystalline sapphire material, referred to as sapphire boules. The sapphire boules are used to make sapphire wafers, a substrate for manufacturing LEDs, as well as sapphire blanks and windows for such applications as medical devices and watch crystals. The Company's ASF technology is based on the heat exchanger method (HEM), which is a directional solidification technique, which crystallizes the sapphire meltstock material during the growth process. The Company also uses the facility as a research and development (R&D) center to test new technology developments prior to commercial release. The Company markets and sells its ASF systems under the name ASF100. The Company also provides engineering and product design, quality control, process engineering, engineering services and field services related to the operation of its ASF furnaces. The Company produces sapphire material on a limited basis at its pilot production facility in Massachusetts. The Company sells this material to customers in the LED and other markets, such as the aerospace, defenses and medical device.
The Company manufactures and sells two principal types of sapphire materials: hems Sapphire Material and Titanium-doped Sapphire (Ti:Sapphire) Material. Using the material derives from the sapphire boule generated with its ASF furnaces, the Company cut the sapphire material in a number of different dimensions and crystal orientations, in form factors such as cores, rods, blanks, windows and tubes. The! Company ! generates sapphire boules that are doped with titanium. The Company provides certain finishing and polishing for its Ti:Sapphire material.
The Company competes with ALD Vacuum Technologies AG, JYT Corporation, Ferrotec Corporation, PVA TePla AG, Centrotherm Elektrische Anlagen GmbH & Co., Jing Gong Technology, Zhejiang Jingsheng Mechanical & Electrical Co., Ltd, MSA Apparatus Construction for Chemical Equipment Ltd, Centrotherm Elektrische Anlagen GmbH & Co., Morimatsu Industry Co. Ltd., Poly Plant Project, Inc., Hemlock Semiconductor Corporation, Wacker Chemie AG, MEMC Electronic Materials, Inc., Renewable Energy Corporation ASA, Thermal Technology LLC, Advanced Renewable Energy Company, LLC, Rubicon Technology, Inc., Sapphire Technology Co. Ltd. (Korea), Kyocera International Inc., Saint-Gobain, Gavish Inc., and Monocrystal.
Advisors' Opinion:- [By Paul Ausick]
We have tracked the short interest in the following North American Solar companies as of September 13: Canadian Solar Inc. (NASDAQ: CSIQ), First Solar Inc. (NASDAQ: FSLR), GT Advanced Technologies Inc. (NASDAQ: GTAT), SunEdison Inc. (NYSE: SUNE) and SunPower Corp. (NASDAQ: SPWR).
- [By Travis Hoium]
Is SunPower's differentiated technology a sustainable competitive advantage?
My investment thesis on SunPower centers on the company's efficiency lead over modules from China and virtually everyone else in solar. This lead should allow SunPower to install residential and commercial systems for a lower cost of energy than competitors, which will lead to higher margins. But GT Advanced Technologies (NASDAQ: GTAT ) says it is releasing equipment this year that will allow for the mass production of cells comparable to SunPower's, and First Solar (NASDAQ: FSLR ) recently bought TetraSun, a high-efficiency solar producer. So, can SunPower maintain it's current lead given these new technologies and any number of new entrants into the market?
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